Title of Invention	LIGHT PHARMACEUTICAL WATER AND THERAPEUTIC COMPOSITIONS AND METHODS THEREOF
Abstract	1. This invention relates to pharmaceutical water, which comprises from 99.760 to 99.999% of light isotopologue 1H2160 and up to 100% of residual isotopologues 1H2170, 1H2180, 1H2H160, 1H2H170, 1H2H180, 1H2160, 1H2170 and 2H2180, for the production of finished product, intermediate reagent preparation, and analytical processes in pharmaceutical industry. Further, the invention relates to pharmaceutical compositions comprising a biologically active agent and said pharmaceutical water, wherein said agent is selected from the group consisting of drugs, physiologically active peptides, physiologically active proteins, and nucleic acids. Further, the invention relates to method of administering a biologically active agent to a mammal in need thereof, which method comprises a step of administering to said mammal said therapeutic composition.

Title of Invention

LIGHT PHARMACEUTICAL WATER AND THERAPEUTIC COMPOSITIONS AND METHODS THEREOF

Abstract

1. This invention relates to pharmaceutical water, which comprises from 99.760 to 99.999% of light isotopologue 1H2160 and up to 100% of residual isotopologues 1H2170, 1H2180, 1H2H160, 1H2H170, 1H2H180, 1H2160, 1H2170 and 2H2180, for the production of finished product, intermediate reagent preparation, and analytical processes in pharmaceutical industry. Further, the invention relates to pharmaceutical compositions comprising a biologically active agent and said pharmaceutical water, wherein said agent is selected from the group consisting of drugs, physiologically active peptides, physiologically active proteins, and nucleic acids. Further, the invention relates to method of administering a biologically active agent to a mammal in need thereof, which method comprises a step of administering to said mammal said therapeutic composition.

Full Text	FORM-2 THE PATENTS ACT, 1970 (39 of 1970) & THE PATENTS RULES, 2003 Provisional /Complete specification [See Section 10 and rule 13] 1 Title of the Invention "LIGHT PHARMACEUTICAL WATER AND THERAPEUTIC COMPOSITIONS AND METHODS THEREOF" 2 Applicant (s) Applicant VADA CONSULTING LIMITED Nationality GREAT BRITAIN Address Suite 401 29-30, Margaret Street London, W1W 8SA (England) Great Britain. The following specification particularly describes the invention and the manner in which it is to be performed. 1 LIGHT PHARMACEUTICAL WATER AND THERAPEUTIC COMPOSITIONS AND METHODS THEREOF Technical Field The present invention relates to human or animal healthcare. More specifically, the present invention relates to pharmaceutical water enriched by light water isotopologue 1H216O and therapeutic compositions and methods thereof. Background of the Invention The pharmaceutical industry places a high priority on the quality of water used in production of finished product, intermediate reagent preparation and analytical processes. Pharmaceutical water quality is regulated by a national pharmacopeia's standards that typically determine the requirements of toxicity, endotoxins, oxidizables, cytotoxicity, and nonvolatile residues. The United States Pharmacopeia (edition USP 23) classifies pharmaceutical water as purified water (PW) and water for injection. (WFI). Purified water is used in the process of production of unit dosage form of drugs. Water for injection is water used for preparation of parenterals. Pharmaceutical water is prepared by specific industrial treatment procedures depending of the type of water. Natural water is a composition of nine water isotopologues (1H216O, 1H217O, 1H218O, 1H2H16O, 1H2H17O, 1H2H18O, 1H216O, 1H217O and 2H218O) formed by stable isotopes of hydrogen (1H and 2H) and oxygen (16O, 17O, 18O), wherein the level of light water isotopologue 1H216O is about 99.7317% (Vienna Standard Mean Ocean Water, VSMOW), and wherein 2 total level of all eight heavy isotopologues comprising at least one heavy isotopes 2H, 17O, and 18O is about 0.2683% (e.g. 0.199983% 'H2180, 0.0372% 1H217O, 0.031069% 1H2H 16O, 0.0000623% 1H2H 18O, and 0.0000116% 1H2H 17O). Rothman et al.. J. Quant. Spectrosc. Radiat. Transfer, 1998. 60, 665. Rothman et al.. J. Quant. Spectrosc. Radiat. Transfer. 2003. 82. p.9. The abundance of water isotopologues in natural water slightly varies on Earth district and climatic conditions and is expressed typically as the deviation, d, relative to the international VSMOW standard. The natural water enriched maximally by major light water isotopologue 1H2I6O was founded in Antarctica (Standard Light Antarctic Precipitation, SLAP), wherein said 6-values of residual heavy isotopes are d2H -415.5%o, d17O -28.1%o, and d180 -53.9%o that corresponds to the 99.757 % level of light water isotopologue 1H216O. R. van Trigt. Laser Spectrometry for Stable Isotope Analysis of Water Biomedical and Paleoclimatological Applications. 2002. Groningen: University Library Groningen, p. 50. Thus, water with the abundance of light water isotopologue 1H216O more than 99.757% is not found in nature. Complete depletion of natural water of deuterium-comprising isotopologues (1H2H16O, 1H2H17O, 1H2H18O, 1H216O, 1H217O and 2H218O) provides water enriched by light water isotopologue 1H216O to the level never more than 99.76%, since total level of these deuterium-comprising isotopologues in water is below 0.031%. Thus, water with content of light water isotopologue1H216O more than 99.76% can be prepared in industrial scale by methods providing depletion of natural water of heavy isotopologues 1H217O, 1H218O, 1H2H16O, 1H2H17O, 1H2H18O, 1H216O, 1H217O and 2H218O . Pharmaceutical water is prepared from natural water by well-known from the art procedures that do not change isotopic content of the starting 3 water. Accordingly, pharmaceutical water is the heterogeneous isotopologue composition comprising from about 99.731 to 99.757 % of light water isotopologue 1H2160 and from about 0.243 to 0.269% of residual amounts of heavy isotopologues 1H217O, 1H218O, 1H2H16O, 1H2H17O, 1H2H18O, 1H216O, 1H217O and 2H218O. In order to produce pharmaceutical water with level of light water isotopologue 'H2160 high than 99.760%, it is necessary to deplete natural water of heavy isotopologues 1H217O, 1H218O, 1H2H16O, 1H2H17O, 1H2H18O, 1H216O, 1H217O and 2H218O. Thus, pharmaceutical water with content of light water isotopologue 'H2160 more than 99.757 % is unknown from the art and can be prepared in industrial scale by methods providing a step of depletion of natural water of heavy isotopologues 1H217O, 1H218O, 1H2H16O, 1H2H17O, 1H2H18O, 1H216O, 1H217O and 2H218O. It is well-documented that light and heavy isotopologues of water have distinct properties and affect distinctly properties of substances in solutions, for example, the rate of biochemical reactions; the enthalpy of association of several binding systems, including protein-carbohydrate, small molecule-small molecule, protein-peptide, and protein-nucleic acid; the thermodynamics (free-energy, enthalpy, entropy and heat-capacity changes) of a ligand binding; the enthalpy of protein unfolding; the thermodynamic stability and formation of functional structures of nucleic acids. Chervenak et al. JACS, 1994, 116 (23): 10533-10539. Makhatadze et al.. Nature Struct. Biol.. 1995. 2 (lOV 852-855. Connelly et al. PNAS. 1994. 91: 1964-1968. Cupane et al.. Nucleic Acids Res. 1980. 8 (18V 4283-4303. So, it is well-documented that heavy and light isotopologues of water affect distinctly on basic properties of substances that typically are used as drugs (proteins, nucleic acids, and small molecules). Accordingly, the isotopologue heterogeneity of pharmaceutical water is undesirable and can affect a drug- 4' dose response. Thus, there is the need in monoisotopologous pharmaceutical water in order to produce drug formulations with more advantageous properties. It is an object of the present invention to provide pharmaceutical water comprising from about 99.760 to about 99.999% of light isotopologue 'H2160 and up to 100% of residual isotopologues 1H217O, 1H218O, 1H2H16O, 1H2H17O, 1H2H18O, 1H216O, 1H217O and 2H218O. It is an object of the present invention to provide method of producing the pharmaceutical water comprising a step of depleting raw water of heavy isotopologues 1H217O, 1H218O, 1H2H16O, 1H2H17O, 1H2H18O, 1H216O, 1H217O and 2H218O. It is an object of the present invention to provide therapeutic compositions comprising an effective amount of a biologically active agent and the pharmaceutical water, which water comprises from about 99.760 to about 99.999% of light isotopologue 1H2160 and up to 100% of residual isotopologues 1H217O, 1H218O, 1H2H16O, 1H2H17O, 1H2H18O, 1H216O, 1H217O and 2H218O. It is an object of the present invention to provide method of treating a mammal in need thereof, which method comprises a step of administering to said mammal the therapeutic composition comprising an effective amount of a biologically active agent and the pharmaceutical water, which water comprises from about 99.760 to about 99.999% of light isotopologue 1H2,60 and up to 100% of residual isotopologues 1H217O, 1H218O, 1H2H16O, 1H2H17O, 1H2H18O, 1H216O, 1H217O and 2H218O. Brief Description of the Drawings FIG.l is a schematic side view of an apparatus for the manufacturing the water comprising from about 99.760 to about 99.999% of light isotopologue 1H216O and up to 100% of residual isotopologues 1H217O, 1H218O, 1H2H16O, 1H2H17O, 1H2H18O, 1H216O, 1H217O and 2H218O. Disclosure of Invention The present invention provides a pharmaceutical water, which comprises from 99.760 to 99.999% of light isotopologue 1H2160 and up to 100% of residual isotopologues 1H217O, 1H218O, 1H2H16O, 1H2H17O, 1H2H18O, 1H216O, 1H217O and 2H218O. As used herein, the term "pharmaceutical water" refers to water used in pharmaceutical industry for the production of bulk drugs or manufacturing finished products (e.g. unit dosage form of drugs). Preferred pharmaceutical water of the invention is purified water (PW) and water for injection (WFI). A generally recognized compendium describing the PW and WFI grade pharmaceutical water is United States Pharmacopeia's monograph (current edition USP 23). As used herein, the term "isotopologue" is in accordance with IUPAC Compendium of Chemical Terminology 2nd Edition (1997) and refers to a molecular entity that differs only in isotopic composition (number of isotopic substitutions), e.g. lH216O, 1H2H16O, and lH218O. Herein and after, term "light pharmaceutical water" refers to water comprising from about 99.760 to about 99.999% of light isotopologue 'H2160 and up to 100% of residual isotopologues1H217O, 1H218O, 1H2H16O, 1H2H17O, 1H2H18O, 1H216O, 1H217O and 2H218O. Relative amounts of particular heavy isotopologues could vary depending upon the procedure of the preparing the water of the invention, but the sum of residual heavy 6 isotopologues formed by heavy isotopes should not exceed 0.001 to 0.240%. Accordingly, the residual amounts of heavy isotopes in the water of the invention could vary from 0.01 ppm to 155 ppm for 2H, 1 to 360 ppm for 17O, and 1 to 2000 ppm for 18O, but the sum of heavy isotopologues formed by these residual heavy isotopes should not exceed 0.001 to 0.240%. Further, the present invention provides a method of producing the pharmaceutical water of the invention comprising a step of depleting raw water of heavy isotopologues 1H217O, 1H218O, 1H2H16O, 1H2H17O, 1H2H18O, 1H216O, 1H217O and 2H218O. The depleting raw water of heavy isotopologues 1H217O, 1H218O, 1H2H16O, 1H2H17O, 1H2H18O, 1H216O, 1H217O and 2H218O can be made by methods known to those skilled in the art. Preferred method for the depleting the raw water is a highly-effective distillation. The product of such depleting is light water comprising from about 99.760% to about 99.999% of light isotopologue 'H^O and up to 100% of residual isotopologues 1H217O, 1H218O, 1H2H16O, 1H2H17O, 1H2H18O, 1H216O, 1H217O and 2H218O. The light pharmaceutical water is prepared from such light water by the methods well-known to those skilled in the art, which methods comprise steps of treating the light water such as pre-treatment, (e.g. primary filtration, coagulation and flocculation, desalination, and softening), disinfection, reverse osmosis or deionization, distillation or ultra-filtration, and chemical and microbial testing of a water sample. In accordance with the USP monograph (USP 23), purified water (PW) is obtained by distillation, ion-exchange treatment, reverse osmosis, or other suitable process and water for injection (WFI) is obtained by distillation or reverse osmosis. In practicing the invention, the sample of light 7 pharmaceutical water should meet requirements of a national pharmacopeia's standards, for example, the US Parmacopeia's standards. Further, the present invention provides a therapeutic composition comprising an effective amount of a biologically active agent and the pharmaceutical water, which water comprises from about 99.760 to about 99.999% of light isotopologue 1H2l60 and up to 100% of residual isotopologues 1H217O, 1H218O, 1H2H16O, 1H2H17O, 1H2H18O, 1H216O, 1H217O and 2H218O. Further, the present invention provides a method of administering a biologically active agent to a mammal in need thereof, which method comprises a step of administering to said mammal the therapeutic composition comprising an effective amount of a biologically active agent and the pharmaceutical water, which water comprises from 99.760 to 99.999% of light isotopologue 1H2l60 and up to 100% of residual isotopologues 1H217O, 1H218O, 1H2H16O, 1H2H17O, 1H2H18O, 1H216O, 1H217O and 2H218O. In the composition of the invention, the biologically active agent is selected from the group consisting of drugs, physiologically active peptides, physiologically active proteins, and nucleic acids. Preferably, the drug is selected from the group consisting of analgesic agents, anesthetic agents, antiacne agents, anti-aging agents, antiallergic agents, antianemic agents, antianginal agents, antianxiety agents, antiarrythmic agents, antiasthmatic agents, antibacterial agents, anticancer agents, anticholinergic agents, anticoagulant agents, anticonvulsant agents, antidepressant agents, antidiabetic agents, antidiarrheal agents, antidiuretic agents, antidotes, antidyskinetic agents, antidysmenorrheal agents, antiemetic agents, antifibrinolytic agents, antifibrotic agents, antifungal agents, antiglaucoma agents, antihemorrhagic agents, antihistaminic agents, 8 antihypercalcemic agents, antyhyperglycemic agents, antihyperlipidemic agents, antihypertensive agents, antihyperthyroid agents, antihyperuricemic agents, antihypocalcemic agents, antihypoglycemic agents, antihypotensive agents, anti-inflammatory agents, anti-Kawasaki disease agents, antimalarial agents, antimethemoglobinemic agents, antimicrobial- agents, antimigraine agents, antimyastenic agents, antineoplastic agents, antineuralgic agents, antineutropenic agents, antipanic agents, antipolyneuropathy agents, antiprotozoal agents, antipsoriatic agents, antipsychotic agents, antipyretic agents, antirheumatic agents, antiseborrheic agents, antispasmodic agents, antithrombotic agents, antitremor agents, antiulcer agents, antivertiligo agents, antiviral agents, anti-wrinkling agents, appetite stimulants, appetite suppressants, asthma prophylactic agents, bone resorption inhibitors, bronchodilators, contraceptive agents, corticosteroids, depigmentation agents, disinfecting agents, diuretic agents, components of dialysis solution, eastrogens, hair growth promoting agents, hair growth inhibitor agents, hemapoietic stimulants, hepatitis treatment agents, histamine H2-receptor antagonists, hormones, humectants, insulin resistance treatment agents, interferon resistance treatment agents, immunosuppressants, impotence therapy agents, keratolytic agents, miotic agents, mucolytic agents, mydriatic agents, myocardial infarction therapy or prophylactic agents, neuromuscular blocking agents, nutritional supplements, vitamins, osteoporosis prophylactic or therapy agents, sedative agents, skeletal muscle relaxant, skin emollients and skin moisturizers, skin lightening agents, sympathomimetic agent, thrombolitic agents, vaccines, vasodilators, wound healing promoters, counterirritants, vitamins, nutrients, amino acids and their derivatives, minerals, herbal extracts, retinoids, bioflavonoids, and antioxidants. 9, Nonexclusive examples of analgesic agent include acetaminophen, hydrocodone bitartrate, codeine, caffeine, acetylsalicylic acid, diclofenac, or mixture thereof. Nonexclusive examples of anesthetic agent include lidocaine, tetracaine, and epinephrine. Nonexclusive examples of antiacne agent include erythromycine, tetracycline, benzoyl peroxide, nicotinamide, resorcinol, doxycicline, and salycilic acid. Nonexclusive examples of antianemic agent include cyanocobalamine, epoietin, ferrous fumarate, ferrous sulfate, ferrous citrate, and iron dextran. Nonexclusive examples of antianginal agent include atenolol, isosorbide mononitrate, nitroglycerine, propranolol, timolol, metoprolol, and verapamil. Nonexclusive examples of antianxiety agent include alprazolam, bromazepam, lorazepam, and diazepam. Nonexclusive examples of antiarrythmic agent include acebutolol, atenolol, atropine, and metoprolol. Nonexclusive examples of antiasthmatic agent include dexmethasone, and loratadine. Nonexclusive examples of antibacterial agent include aminosalycilic acid, isoniazide, erythromycine, gentamicin, ciprofloxacin, amoxicillin, cephaxelin, and streptomycin. Nonexclusive examples of anticancer agent include daunorubicin. Nonexclusive examples of anticholinergic agent include atropine. Nonexclusive examples of anticoagulant agent include heparin, warfarin, and dicumarol. Nonexclusive examples of anticonvulsant agent include clonazepam, diazepam, and valproic acid. 10 Nonexclusive examples of antidepressant agent include amitriptyline, and fluoxetin. Nonexclusive examples of antidiabetic agent include insulin, metformin, succinic acid, and sulfonylureas like as glyburide. Nonexclusive examples of antidiarrheal agent include codeine, and bismuth subsalycilate. Nonexclusive examples of antidiuretic agent include vasopressin. Nonexclusive examples of antidote include glucagon to calcium channel blocking agents, and penicillamine to heavy metals. Nonexclusive examples of antidyskinetic agent include levodopa. Nonexclusive examples of antidysmenorrheal agent include diclofenac. Nonexclusive examples of antiemetic agent include chlorpromazine. Nonexclusive examples of antifibrinolytic agent include aminocaproic acid. Nonexclusive examples of antifibrotic agent include potassium aminobenzoate. Nonexclusive examples of antifungal agent include ketoconazol. Nonexclusive examples of antiglaucoma agent include carbachol, and pilocarpine. Nonexclusive examples of antihemorrhagic agent include factor IX, and aminocaproic acid. Nonexclusive examples of antihistaminic agent include ranitidine hydrochloride, and loratadine. Nonexclusive examples of antihypercalcemic agent include calcitonin, etidronate and other biphosphonates. Nonexclusive examples of antyhyperglycemic agent include metformin. 11 Nonexclusive examples of antihyperlipidemic agent include clofibrate, and fluvastatin. Nonexclusive examples of antihypertensive agent include atenolol, captopril, lisinopril, and verapamil. Nonexclusive examples of antihyperthyroid agent include potassium iodide. Nonexclusive examples of antihyperuricemic agent include allopurinol. Nonexclusive examples of antihypocalcemic agent include calcium acetate. Nonexclusive examples of antihypoglycemic agent include glucagon. Nonexclusive examples of antihypotensive agent include dihydroergotamine. Nonexclusive examples of anti-inflammatory agent include acetylsalycilic acid, choline salycilate, ibuprofen, diclofenac, indomethacin, and dexamethasone. Nonexclusive examples of anti-Kawasaki disease agent include immune globulin. Nonexclusive examples of antimalarial agent include quanidine. Nonexclusive examples of antimethemoglobinemic agent include methylene blue. Nonexclusive examples of antimyastenic agent include neostygmine. Nonexclusive examples of antineoplastic agent include asparaginase, carboplatin, daunorubicin, interferon, tamoxifen, and fluorouracil. Nonexclusive examples of antineuralgic agent include carbamazepine. Nonexclusive examples of antipanic agent include clonazepam. Nonexclusive examples of antipblyneuropathy agent include immune globulin. 12 Nonexclusive examples of antiprotozoal agent include chloroquine, and furazolidone. Nonexclusive examples of antipsoriatic agent include methotrexate. Nonexclusive examples of antipsychotic agent include carbamazepine. Nonexclusive examples of antipyretic agent include acetaminophen. Nonexclusive examples of antirheumatic agent include methotrexate. Nonexclusive examples of antiseborrheic agent include pyrithione, salycilic acid. Nonexclusive examples of antispasmodic agent include glucagon. Nonexclusive examples of antithrombotic agent include acetylsalycilic acid. Nonexclusive examples of antitremor agent include diazepam. Nonexclusive examples of antiulcer agent include omeprazole. Nonexclusive examples of antivertiligo agent include diphenidol. Nonexclusive examples of antiviral agent include acyclovir, and ribavirin. Nonexclusive examples of appetite stimulant include dronabinol. Nonexclusive examples of appetite suppressant include phentermine. Nonexclusive examples of asthma prophylactic agent include theophylline. Nonexclusive examples of bone resorption inhibitor include calcitonin. Nonexclusive examples of bronchodilator include theophylline, and albuterol. Nonexclusive examples of contraceptive agent include levonorgestrel. Nonexclusive examples of corticosteroid include dexamethasone. Nonexclusive examples of diuretic agent include furosemide, and hydrochlorothiazide. Nonexclusive examples of eastrogen include estradiol. ,13 Nonexclusive examples of hemapoietic stimulant include epoietin. Nonexclusive examples of hepatitis treatment agent include interferon alpha. Nonexclusive examples of histamine H2-receptor antagonist include cimetidine. Nonexclusive examples of hormones include melatonin, thyroid hormones, thyroxine, triiodothyronine, adrenaline, noradrenaline, glucocorticoids (e.g. Cortisol), mineralocorticoids (e.g. aldosteron), estrogens (e.g. estradiol), progesterone, androgens (e.g. testosteron), calcitriol, and calciferol. Nonexclusive examples of insulin resistance treatment agents or interferon resistance treatment agents include succinic acid or salts thereof. Nonexclusive examples of immunosuppressant include cyclosporine. Nonexclusive examples of impotence therapy agent include papaverine. Nonexclusive examples of keratolytic agent include benzoyl peroxide. Nonexclusive examples of miotic agent include carbachol. Nonexclusive examples of mucolytic agent include acetylcysteine. Nonexclusive examples of mydriatic agent include atropine. Nonexclusive examples of myocardial infarction therapy or prophylactic agent include acetylsalycilic acid. Nonexclusive examples of neuromuscular blocking agent include succinylcholine. Nonexclusive examples of nutritional supplement include calcium lactate, copper gluconate, ferrous fumarate, magnesium chloride, selenous acid, ascorbic acid, beta-carotene, biotin, calcitriol, calcium pantothenate, cyanocobalamine, ergocalciferol, folic acid, niacin, niacinamide, pantothenic acid, pyridoxine, riboflavin, sodium ascorbate, lipoic acid, inositol, and thiamine. 14 Nonexclusive examples of nutrients include glucose. Nonexclusive examples of minerals include calcium, chromium, cobalt, copper, fluoride, germanium, iodine, iron, lithium, magnesium, manganese, molybdenum, phosphorus, potassium, selenium, silicon, sodium, sulfur, vanadium, and zinc. Nonexclusive examples of vitamins include thiamin, riboflavin, niacin, pantothenates, pyridoxine, folic acid, cobalamin, biotin, choline, inositol, ascorbic acid, lipoic acid, and carnitine. Nonexclusive examples of osteoporosis prophylactic or therapy agent include estrogens. Nonexclusive examples of sedative agent include diazepam. Nonexclusive examples of skeletal muscle relaxant include phenytoin. Nonexclusive examples of thrombolitic agent include urokinase. Nonexclusive examples of vasodilator include enalapril. The drug of the invention is generally used individually at levels from about 0.0005% to about 50.0%, preferably from about 0.005% to about 5.0%o by weight of the composition. Preferably, the physiologically active peptide or protein is selected from the group consisting of cytokines, peptide hormones, growth factors, factors acting on the cardiovascular system, factors acting on the central and peripheral nervous systems, factors acting on humoral electrolytes, hematopoietic factors, factors acting on bone and skeleton, factors acting on the gastrointestinal system, factors acting on the immune system, factors acting on the genital organs, and enzymes. Nonexclusive examples of cytokines include interferons (e.g. interferon-alpha, -beta, and -gamma) and interleukins (e.g. interleukin 2 through 12). 15 Nonexclusive examples of protein or peptide hormones include insulin, insulin-like growth factor-1, growth hormone, luteinizing hormone-releasing hormone (LH-RH), adrenocorticotropic hormone (ACTH), amylin, oxytocin, activin, amylin, angiotensin, atrial natriuretic peptides (ANP), calcitonin, cholecystokinin (CCK), ciliary neurotrophic factor (CNTF), corticotropin-releasing hormone (CRH or CRF), erythropoietin, follicle-stimulating hormone (FSH), gastrin, gastrin inhibitory peptide (GIP), gastrin-releasing peptide, ghrelin, glucogon, gonadotropin-releasing factor (GnRF or GNRH), growth hormone releasing hormone (GRF, GRH), human chorionic gonadotropin (hCH), inhibin A, inhibin B, leptin, lipotropin (LPH), luteinizing hormone (LH), motilin, neuropeptide Y, oxytocin, pancreatic polypeptide, parathyroid hormone (PTH), placental lactogen, prolactin (PRL), prolactin-release inhibiting factor (PIF), prolactin-releasing factor (PRP), PYY3-36, secretin, somatostatin (SIF, growth hormone-release inhibiting factor, GIF), thrombopoietin, thyrotropin (thyroid-stimulating hormone, TSH), thyrotropin-releasing factor (TRH or TRF), vasoactive intestinal peptide (VIP), vasopressin (antidiuretic hormone, ADH) and combinations thereof. Nonexclusive examples of growth factors include nerve growth factors (NGF, NGF-2/NT-3), epidermal growth factor (EGF), fibroblast growth factor (FGF), insulin-like growth factor (IGF), transforming growth factor (TGF), platelet-derived cell growth factor (PDGF), keratinocyte growth factor (TGF), and hepatocyte growth factor (HGF). Nonexclusive examples of factors acting on the cardiovascular system include which control blood pressure, arteriosclerosis, etc., such as endothelins, endothelin inhibitors, endothelin antagonists, vasoppressin, renin, angiotensin I, angiotensin II, angiotensin III, angiotensin I inhibitor, 16 angiotensin II receptor antagonist, atrial naturiuretic peptide (ANP), and antiarrythmic peptide. Nonexclusive examples of factors acting on the central and peripheral nervous systems include opioid peptides (e.g. enkepharins, endorphins, kyotorphins), neurotrophic factor (NTF), calcitonin gene-related peptide (CGRP), thyroid hormone releasing hormone (TRH), glial-derived neurotrophic factor (GDNF), brain-derived neurotrophic factor (BDNF), and neurotrophines (e.g. NT3, NT4). Nonexclusive examples of factors acting on humoral electrolytes include calcitonin. Nonexclusive examples of hematopoietic factors include erythropoietin, granulocyte colony stimulating factor (G-CSF), granulocyte-macrophage stimulating factor (GM-CSF) and macrophage colony stimulating factor (M-CSF), and thrombopoietin. Nonexclusive examples of factors acting on the gastrointestinal system include secretin and gastrin. Nonexclusive examples of factors acting on the immune system include interferons (e.g. interferon-alpha, and -gamma), monoclonal antibody, and naturally occurring, chemically synthesized or recombinant peptides or proteins which may act as antigens. These factors are administered, either independently, as coupled to haptens, or together with an adjuvant, in the formulations according to the present invention. Nonexclusive examples of factors acting on bone and skeleton include parathyroid hormone and calcitonin. Nonexclusive examples of factors acting on the genital organs include luteinizing hormone-releasing hormone (LH-RH) and luteinizing hormone. Nonexclusive examples of enzymes include superoxide dismutase (SOD), urokinase, asparaginase, and kallikreins. 17 These peptides or proteins may further include glycosylated peptides or proteins, and chemically modified peptides or proteins. Nonexclusive examples of chemically modified peptides or proteins include peptides or proteins linked by a covalent chemical bond to synthetic polymers such as polyethylene glycol, natural polymers such as chondroitin, polysaccharides, etc. and those chemically modified with non-peptide substances. The non-peptide substances mentioned above may be ligands for receptors or antigens for antibodies. Furthermore, the peptide or protein may be a plurality of peptides joined together by chemical means or by genetic engineering technology. Nonexclusive examples of nucleic acids include plasmid DNA, RNA and oligonucleotides. Typically, the peptide, protein or nucleic acid of the invention is presented in the composition of the invention in amounts close to its normal dosage and daily regimen ranges as detailed in medical literature for injective dosage forms. Preferably, the peptide or protein of the invention is generally used individually at levels from about 0.00001% to about 5.0%, preferably from about 0.0001% to about 1% by weight of the composition. Preferably, the amount of the pharmaceutical water in the composition of the invention is from about 1.0 to 99.9%) based upon the total weight of the composition. More preferably, from about 50.0 to 99.9%) based upon the total weight of the composition. The composition of the invention is provided in the pH range which does not remarkably affect the activity of the physiologically active peptide or protein and is physiologically acceptable. The preferred range is about pH 2 to pH 10. The more preferred range is about 3 to pH 9, and the most desirable range is about pH 3.5 to pH 8. Preferably, buffer of the invention 18 include, but are not limited to, glycine, citrate, succinate, fumarate, malate, or phosphate buffer. The compositions of the invention are prepared by known procedures using well-known ingredients. In making the compositions, the biologically active agent will usually be mixed with the light water and diluted by appropriate diluent or carrier. Additively, the composition of the invention can comprise preservatives, flavors, colorants, and etc. Additively, the composition of the present invention may be further supplemented with an absorption promoter which assists in the absorption of the pharmacologically active substance. The absorption promoter may be any promoter that is pharmaceutically acceptable. Thus, there can be sodium salicylate and salicylic acid derivatives (acetyl salicylate, choline salicylate, salicylamide, etc.), amino acids and salts thereof (e.g. monoaminocarboxlic acids such as glycine, alanine, phenylalanine, proline, hydroxyproline, etc., hydroxyamino acids such as serine etc., acidic amino acids such as aspartic acid, glutamic acid, etc. and basic amino acids such as lysine etc., inclusive of their alkali metal or alkaline earth metal salts), N-acetylamino acids (N- acetylalanine, N-acetylphenylalanine, N-acetylserine, N-acetylglycine, N- acetyllysine, N-acetylglutamic acid, N-acetylproline, N- acetylhydroxyproline, etc.) and their salts (alkali metal salts and alkaline earth metal salts), substances which are generally used as emulsifiers (e.g. sodium oleyl phosphate, sodium lauryl phosphate, sodium lauryl sulfate, sodium myristyl sulfate, polyoxyethylene alkyl ethers, polyoxyethylene alkyl esters, etc.), caproic acid, lactic acid, malic acid and citric acid and alkali metal salts thereof, pyrrolidonecarboxylic acids, alkylpyrrolidonecarboxylic acid esters, N-alkylpyrrolidones, proline acyl esters, and etc. Such optional ingredients generally are used individually at 19 levels from about 0.0005% to about 10.0%, preferably from about 0.005% to about 1.0% by weight of the composition. The therapeutic composition can be formulated in a variety of unit dosage form. Such forms include, but are not limited to, gel tablets, sprays, syrups, suppositories, drops, and solutions. In practicing the method of the invention, the therapeutic composition in a unit dosage fonn can be administered by a variety of routes. Such routes include, but are not limited to, oral, parenteral, transdermal, transmucosal, intradermal, intranasal, rectal, or topical. Oral dosage form (e.g. syrup, gel tablet) is ingested and this method can be reapplied from 1 to about 5, preferably from 1 to 3 times per day. Transmucosal dosage form (e.g. sublingual spray, gel tablet, or solution) is applied on sublingual mucosa of the mammal for period at least 10 second and this method can be reapplied from 1 to about 5, preferably from 1 to 3 times per day. Parenteral dosage form (e.g. solution for injections) is injected to the mammal (e.g subcutaneously or intramuscularly) and this method can be reapplied. Nasal dosage form (e.g. nasal spray or drops) is applied on nasal mucosa of the mammal and this method can be reapplied from 1 to about 5, preferably from 1 to 3 times per day. Topical dosage form (e.g. gel) is applied on skin of the mammal, and is preferably left on the skin for a period of at least about 15 minutes, more preferably at least about 30 minutes, even more preferably at least about 1 hour, most preferably for at least several hours, e.g., up to about 12 hours. This method can be reapplied from 1 to about 5, preferably from 1 to 3 times per day. 20 The following examples are presented to demonstrate the invention. The examples are illustrative only and are not intended to limit the scope of the invention in any way. Example 1 This example demonstrates the method for producing pharmaceutical water of the invention. Raw light water comprising 99.99% of light isotopologue 'H2160 and up to 100% of residual isotopologues 1H217O, 1H218O, 1H2H16O, 1H2H17O, 1H2H18O, 1H216O, 1H217O and 2H218O is prepared by highly-effective distillation of natural raw water comprising 99.73% of light isotopologue 'H-,,60 with using the apparatus of FIG.l under temperature 60°C and pressure 0.2 bars. The process of the distillation comprises evaporating natural water comprising 99.73% (C,) of light isotopologue 'H^O in boiling means 1 to produce water vapor; supplying the water vapor to the bottom 2 of distillation column 3; carrying out vapor-liquid contact between a descending liquid and an ascending vapor mainly on the surface of the contact device 4 (e.g. structured or random packing) within the distillation column, at which time the liquid and the vapor flow in mutually opposite directions over the surface of the contact device along a main flow direction which is along a direction of the column axis; condensing water vapor with concentration of light isotopologue 1H216O 99.99% (C2) on condenser 5 installed on upper bound of the distillation column 3; and collecting a part of condensate as condensed raw light water comprising 99.99%) of light isotopologue 1H216O (C2 > C1) appropriate for producing light pharmaceutical water. Then, the raw light water is treated consequently by procedure of reverse osmosis. Resulted WFI grade pharmaceutical water 21 comprising 99.99% of light isotopologue 1H2I6O is tested on chemical and microbial contaminants as prescribed by national pharmacopeia's standards. Example 2 This example shows a representative formulation comprising insulin. Content Water for injections (99.99% of light isotopologue 1H2160) 1ml Human recombinant insulin 3.5 mg (100 IU) Sodium chloride 5mg Polysorbate 20 0.01 mg m-Cresol 2.7 mg The method for preparing the composition described in Example 2 was as follows: the human recombinant insulin, light water for injections and other components were mixed. Example 3 This example shows a representative formulation comprising interferon-alpha. Content Water for injections (99.99% of light isotopologue 1H2160) 0.5 ml Human recombinant interferon-alpha 10 mg Sodium chloride 5.9 mg Sodium phosphate 3.8 mg 22 The method for preparing the composition described in Example 3 was as follows: the human recombinant interferon-alpha, light water for injections and other components were mixed. Example 4 This example shows a representative formulation comprising interferon-beta. Content Water for injections (99.99% of light isotopologue 1H2 16O) 1ml Human recombinant interferon-beta 30 mg Albumin 15 mg Sodium chloride 5.8 mg Dibasic sodium phosphate 5.7 mg Monobasic sodium phosphate 1.2 mg The method for preparing the composition described in Example 4 was as follows: the human recombinant interferon-beta, light water for injections and other components were mixed. Example 5 This example shows a representative formulation comprising erythropoietin. Content Water for injections (99.99% of light isotopologue 1H2I6O) 1ml Human recombinant erythropoietin 10,000 IU Albumin 2.5 mg 23 Sodium citrate 5.8 mg Sodium chloride 5.8 mg Citric acid 0.06 mg The method tor preparing the composition described in Example 5 was as follows: the human recombinant erythropoietin, light water for injections and other components were mixed. Example 6 This example shows a representative formulation comprising calcitonin. Content Water for injections (99.99% of light isotopologue 1H2160) 1ml Salmon calcitonin 2200 IU Sodium chloride 8.5 mg The method for preparing the composition described in Example 6 was as follows: the salmon calcitonin, light water for injections and other components were mixed. Example 7 This example shows a representative formulation comprising G-CSF. Content Water for injections (99.99% of light isotopologue lH216O) 1ml Human recombinant G-CSF 300 fig Acetate 0.59 mg Sodium 0.035 mg 24 Tween 80 0.004% Sorbitol 50 mg The method for preparing me composition described in example 7 was as follows: the human recombinant G-CSF, light water for injections and other components were mixed. Example 8 This example shows a representative formulation comprising GM-CSF. Content Water for injections (99.99% of light isotopologue 1H216O) 1ml Human recombinant GM-CSF 500 mg Sodium citrate 5.8 mg Sodium chloride 5.8 mg Citric acid 0.06 mg The method for preparing the composition described in Example 8 was as follows: the human recombinant GM-CSF, light water for injections and other components were mixed. Example 9 This example shows a representative formulation comprising GDNF. Content Water for injections (99.99% of light isotopologue lH2l6O) 1ml Human recombinant GDNF 500 mg Sodium citrate 5.8 mg Sodium chloride 5.8 mg 25 Citric acid 0.06 mg The method for preparing the composition described in Example 9 was as follows: the human recombinant GDNF, light water for injections and other components were mixed. Example 10 This example shows a representative formulation comprising growth hormone. Content Water for injections (99.99% of light isotopologue 1H216O) 1.5 ml Human recombinant growth hormone 5mg Sodium citrate 5.8 mg Sodium chloride 5.8 mg Citric acid 0.06 mg The method for preparing the composition described in Example 10 was as follows: the human recombinant growth hormone, light water for injections and other components were mixed. Example 11 This example shows a representative formulation comprising IL-1 receptor antagonist. Content Water for injections (99.99% of light isotopologue 1H2,16O) 1ml Human recombinant IL-1 receptor antagonist 100 mg Sodium citrate 1.29 mg 26 Sodium chloride 5.48 mg Polysorbate 80 0.70 mg The method for preparing the composition described in Example 11 was as follows: the human recombinant IL-1 receptor antagonist, light water for injections and other components were mixed. Example 12 This example shows a representative formulation comprising anti-VEGF monoclonal antibody. Content Water for injections (99.99% of light isotopologue 'H2160) 1ml anti-VEGF monoclonal antibody 25 mg Trehalose 60 mg Sodium phosphate (monobasic) 5.8 mg Sodium phosphate (dibasic) 1.2 mg Sodium chloride 5.48 mg Polysorbate 20 0.40 mg The method tor preparing the composition described in Example 12 was as follows: anti-VEGF monoclonal antibody, light water for injections and other components were mixed. Example 13 This example shows a representative formulation comprising influenza virus vaccine. Content 27 Water for injections (99.99% of light isotopologue 1H216 O) 1ml Viral antigen (hemagglutinin) 90 ug The method for preparing the composition described in Example 13 was as follows: viral antigen (hemagglutinin), light water for injections and other components were mixed. Example 14 This example shows a representative formulation comprising artificial tear (ophtalmological agent). Content Water for injections (99.99% of light isotopologue 'H2160) 1ml Polyacrylic acid 2mg Sorbitol 40 mg Benzalkonium chloride 2mg The method for preparing the composition described in Example 14 was as follows: polyacrylic acid, sorbitol, benzalkonium chloride, and light water for injections were mixed. Example 15 This example shows a representative formulation comprising dextran 70 (blood substitute). Content Water for injections (99.99% of light isotopologue 1H2I6O) 1ml Dextran 70 60 mg Sodium chloride 9mg 28' The method for preparing the composition described in Example 15 was as follows: dextran 70, sodium chloride, and light water for injections were mixed. Example 16 This example shows a representative formulation comprising naloxone (antidote). Content Water for injections (99.99% of light isotopologue 1H216O) 1ml Naloxone hydrochloride 0.4 mg The method for preparing the composition described in Example 16 was as follows: naloxone hydrochloride and light water for injections were mixed. Example 17 This example shows a representative formulation comprising sodium chloride (agent correcting electrolyte balance). Content Water for injections (99.99% of light isotopologue 1H216O) 1ml Sodium chloride 9mg The method for preparing the composition described in Example 17 was as follows: sodium chloride and light water for injections were mixed. Example 18 This example shows a representative dermatological formulation for skin hydration. 29 Content Purified Water (99.99% of light isotopologue 1H216O) 21 g Glycerin 5g Methylhydroxypropylcellulose 2.5 g The method for preparing the composition described in Example 18 was as follows: glycerin, purified light water and methylhydroxypropylcellulose were mixed. Example 19 This example shows a representative formulation comprising interleukin-2. Content Water for injections (99.99% of light isotopologue 1H2 l6O) 1.2 ml Human recombinant interleukin-2 18xl06IU Mannitol 50 mg Sodium dodecylsulfate 0.18 mg Dibasic sodium phosphate 0.89 mg Monobasic sodium phosphate 0.17 mg The method for preparing the composition described in Example 19 was as follows: the human recombinant interleukin-2, light water for injections and other components were mixed. Example 20 This example demonstrates an advantageous efficacy of interferon delivery through administration of interferon composition made on light pharmaceutical water vs. pharmaceutical water. 30 Material. Human recombinant interferon-alpha (IFN) was used. Treatment. Male C57B1 mice about 20 g weights were administered oromucosally with 170 ng/mouse IFN in form of 20 ul/mouse solution made on natural distilled water (99.73% of light isotopologue 1H216O, control) or light pharmaceutical water (99.90% of light isotopologue 1H216O) in citrate buffer under pH 5.4-5.5. Plasma IFN levels were measured at 7 min after the administration with immunoenzyme assay specific to human IFN. Data are presented in table below as plasma IFN mean ±SD (n=6) in ng/ml. Treatment Plasma IFN, ng/ml IFN plus pharmaceutical water (control) 3.7 ±2.0 IFN plus light pharmaceutical water 15.0 ±1.8* Differs significantly of control (p Example 21 This example demonstrates an advantageous efficacy of interferon delivery through administration of interferon composition made on light pharmaceutical water vs. pharmaceutical water. Material. Human recombinant interferon-alpha (IFN) was used. Treatment. Male C57B1 mice about 20 g weights were depilated 72 hours before the experiment. 100 ng/mouse IFN in form of 100 ml/mouse solution made on natural distilled water (99.73% of light isotopologue 1H216O, control) or light pharmaceutical water (99.90% of light isotopologue 1H216O) in succinate buffer under pH 5.1 were applied on skin depilated area of about 1 cm2. Plasma IFN levels were measured at 10 min 31 with immunoenzyme assay specific to human IFN. Data are presented in table below as plasma IFN mean ± SD (n=5) in ng/ml. Treatment Plasma IFN, ng/ml IFN plus pharmaceutical water (control) 0.37 ±0.09 IFN plus light pharmaceutical water 3.62 ±1.01 *Differs significantly of control (p Example 22 This example shows a representative formulation for a sublingual spray comprising interferon alpha. Content, weight % Light pharmaceutical water (99.99% of light isotopologue 1H216O) 92.00 Human recombinant Interferon alpha2a 0.85 Glycerol 5 Succinic acid 1.2 Sodium hydroxide 0.95 The method for preparing the composition described in Example 22 was as follows: the above-mentioned ingredients were mixed in the conventional manner to prepare the sublingual spray comprising interferon alpha. Example 23 This example shows a representative formulation for a sublingual spray comprising insulin. 32 Content, weight % Light pharmaceutical water (99.99% of light isotopologue 1H216O) 92.24 Human recombinant insulin 0.81 Glycerol 5 Succinic acid 1.0 S The method for preparing the composition described in Example 23 was as follows: the above-mentioned ingredients were mixed in the conventional manner to prepare the sublingual spray comprising insulin.Example 24This example shows a representative formulation for a sublingual spray comprising erythropoietin.odium hydroxide 0.95 Content, weight % Light pharmaceutical water (99.99% of light isotopologue 1H216O) 92.25 Human recombinant erythropoietin 0.80 Glycerol 5 Citric acid 1.0 Sodium hydroxide 0.95 The method for preparing the composition described in Example 23 was as follows: the above-mentioned ingredients were mixed in the conventional manner to prepare the sublingual spray comprising insulin. Example 24 This example shows a representative formulation for a sublingual spray comprising erythropoietin. The method for preparing the composition described in Example 24 was as follows: the above-mentioned ingredients were mixed in the conventional manner to prepare the sublingual spray comprising erythropoietin. Example 25 This example shows a representative formulation for a sublingual spray comprising calcitonin. Content, weight % Light pharmaceutical water (99.99% of light isotopologue 1H216O ) 92.25 Calcitonin 0.80 Glycerol 5 Succinic acid 1.0 Sodium hydroxide 0.95 The method for preparing the composition described in Example 25 was as follows: the above-mentioned ingredients were mixed in the conventional manner to prepare the sublingual spray comprising calcitonin. 34 WE CLAIM: 1. A pharmaceutical water, which comprises from 99.760 to 99.999% of light isotopologue 1H216O and up to 100% of residual isotopologues 1H217O, 1H218O, 1H2H16O, 1H2H17O, 1H2H18O, 1H216O, 1H217O and 2H218O 2. A method of producing the pharmaceutical water of claim 1 comprising a step of depleting raw water of heavy isotopologues 1H217O, 1H218O, 1H2H16O, 1H2H17O, 1H2H18O, 1H216O, 1H217O and 2H218O . 3. 3. A therapeutic composition comprising an effective amount of a biologically active agent and the pharmaceutical water, which water comprises from 99.760 to 99.999% of light isotopologue 1H2160 and up to 100% of residual isotopologues 1H217O, 1H218O, 1H2H16O, 1H2H17O, 1H2H18O, 1H216O, 1H217O and 2H218O. 4. The composition according to claim 3, wherein the biologically active agent is selected from the group consisting of drugs, physiologically active peptides, physiologically active proteins, and nucleic acids. 5. The composition according to claim 4, wherein the drug is selected from the group consisting of analgesic agents, anesthetic agents, antiacne agents, anti-aging agents, antiallergic agents, antianemic agents, antianginal agents, antianxiety agents, antiarrythmic agents, antiasthmatic agents, antibacterial agents, anticholinergic agents, anticoagulant agents, anticonvulsant agents, antidepressant agents, antidiabetic agents, antidiarrheal agents, antidiuretic agents, antidotes, antidyskinetic agents, antidysmenorrheal agents, antiemetic agents, antifibrinolytic agents, antifibrotic agents, antifungal agents, antiglaucoma agents, antihemorrhagic agents, antihistaminic agents, antihypercalcemic agents, antyhyperglycemic agents, antihyperlipidemic agents, antihypertensive agents, antihyperthyroid agents, antihyperuricemic agents, antihypocalcemic agents, antihypoglycemic agents, antihypotensive agents, anti-inflammatory agents, anti-Kawasaki disease agents, 35 antimalarial agents, antimethemoglobinemic agents, antimicrobial agents, antimigraine agents, antimyastenic agents, antineoplastic agents, antineuralgic agents, antineutropenic agents, antipanic agents, antipolyneuropathy agents, antiprotozoal agents, antipsoriatic agents, antipsychotic agents, antipyretic agents, antirheumatic agents, antiseborrheic agents, antispasmodic agents, antithrombotic agents, antitremor agents, antiulcer agents, antivertiligo agents, antiviral agents, anti-wrinkling agents, appetite stimulants, appetite suppressants, asthma prophylactic agents, bone resorption inhibitors, bronchodilators, contraceptive agents, corticosteroids, depigmentation agents, disinfecting agents, diuretic agents, components of dialysis solution, eastrogens, hair growth promoting agents, hair growth inhibitor agents, hemapoietic stimulants, hepatitis treatment agents, histamine H2-receptor antagonists, hormones, humectants, insulin resistance treatment agents, interferon resistance treatment agents, immunosuppressants, impotence therapy agents, keratolytic agents, miotic agents, mucolytic agents, mydriatic agents, myocardial infarction therapy or prophylactic agents, neuromuscular blocking agents, nutritional supplements, vitamins, osteoporosis prophylactic or therapy agents, sedative agents, skeletal muscle relaxant, skin emollients and skin moisturizers, skin lightening agents, sympathomimetic agent, thrombolitic agents, vaccines, vasodilators, wound healing promoters, counter-irritants, vitamins, nutrients, amino acids and their derivatives, minerals, herbal extracts, retinoids, bioflavonoids, and antioxidants. 6. The composition according to claim 4, wherein the physiologically active peptide or protein is selected from the group consisting of cytokines, peptide hormones, growth factors, factors acting on the cardiovascular system, factors acting on the central and peripheral nervous systems, factors 36 acting on humoral electrolytes, hematopoietic factors, factors acting on bone and skeleton, factors acting on the gastrointestinal system, factors acting on the immune system, factors acting on the genital organs, and enzymes. 7. The composition according to claim 6, wherein the cytokine is interferon alpha. 8. The composition according to claim 6, wherein the peptide hormone is insulin. 9. The composition according to claim 6, wherein the growth factor is insulin-like growth factor. 10. The composition according to claim 6, wherein the peptide hormone is calcitonin. 11. The composition according to claim 6, wherein the peptide hormone is growth hormone. 12. The composition according to claim 6, wherein the hematopoietic factor is erythropoietin. 13. The composition according to claim 6, wherein the factor acting on the immune system is vaccine. 14. The composition according to claim 3, wherein the amount of the pharmaceutical water is from about 1.0 to 99.9% based upon the total weight of the composition. 15. The composition according to claim 14, wherein the amount of the pharmaceutical water is from about 50.0 to 99.9% based upon the total weight of the composition. 16. A method of administering a biologically active agent to a mammal in need thereof, which method comprises a step of administering to said mammal the therapeutic composition according to claim 3. 37 17. The method according to claim 16, wherein said composition is administered orally, parenterally, transdermally, transmucosally, intranasally, rectally or topically. 38 Abstract 4. This invention relates to pharmaceutical water, which comprises from 99.760 to 99.999% of light isotopologue 1H2160 and up to 100% of residual isotopologues 1H2170, 1H2180, 1H2H160, 1H2H170, 1H2H180, 1H2160, 1H2170 and 2H2180, for the production of finished product, intermediate reagent preparation, and analytical processes in pharmaceutical industry. Further, the invention relates to pharmaceutical compositions comprising a biologically active agent and said pharmaceutical water, wherein said agent is selected from the group consisting of drugs, physiologically active peptides, physiologically active proteins, and nucleic acids. Further, the invention relates to method of administering a biologically active agent to a mammal in need thereof, which method comprises a step of administering to said mammal said therapeutic composition.

Full Text

FORM-2
THE PATENTS ACT, 1970
(39 of 1970)
&
THE PATENTS RULES, 2003
Provisional /Complete specification
[See Section 10 and rule 13]

1 Title of the Invention
"LIGHT PHARMACEUTICAL WATER AND THERAPEUTIC COMPOSITIONS AND METHODS THEREOF"
2 Applicant (s)
Applicant VADA CONSULTING LIMITED
Nationality GREAT BRITAIN
Address Suite 401 29-30, Margaret Street London, W1W 8SA (England) Great Britain.
The following specification particularly describes the invention and the manner in which it is to be performed.
1

LIGHT PHARMACEUTICAL WATER AND THERAPEUTIC COMPOSITIONS AND METHODS THEREOF
Technical Field
The present invention relates to human or animal healthcare. More specifically, the present invention relates to pharmaceutical water enriched by light water isotopologue 1H216O and therapeutic compositions and methods thereof.
Background of the Invention
The pharmaceutical industry places a high priority on the quality of water used in production of finished product, intermediate reagent preparation and analytical processes. Pharmaceutical water quality is regulated by a national pharmacopeia's standards that typically determine the requirements of toxicity, endotoxins, oxidizables, cytotoxicity, and nonvolatile residues. The United States Pharmacopeia (edition USP 23) classifies pharmaceutical water as purified water (PW) and water for injection. (WFI). Purified water is used in the process of production of unit dosage form of drugs. Water for injection is water used for preparation of parenterals. Pharmaceutical water is prepared by specific industrial treatment procedures depending of the type of water.
Natural water is a composition of nine water isotopologues (1H216O, 1H217O, 1H218O, 1H2H16O, 1H2H17O, 1H2H18O, 1H216O, 1H217O and 2H218O) formed by stable isotopes of hydrogen (1H and 2H) and oxygen (16O, 17O, 18O), wherein the level of light water isotopologue 1H216O is about 99.7317% (Vienna Standard Mean Ocean Water, VSMOW), and wherein
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total level of all eight heavy isotopologues comprising at least one heavy isotopes 2H, 17O, and 18O is about 0.2683% (e.g. 0.199983% 'H2180, 0.0372% 1H217O, 0.031069% 1H2H 16O, 0.0000623% 1H2H 18O, and 0.0000116% 1H2H 17O). Rothman et al.. J. Quant. Spectrosc. Radiat. Transfer, 1998. 60, 665. Rothman et al.. J. Quant. Spectrosc. Radiat. Transfer. 2003. 82. p.9. The abundance of water isotopologues in natural water slightly varies on Earth district and climatic conditions and is expressed typically as the deviation, d, relative to the international VSMOW standard. The natural water enriched maximally by major light water isotopologue 1H2I6O was founded in Antarctica (Standard Light Antarctic Precipitation, SLAP), wherein said 6-values of residual heavy isotopes are d2H -415.5%o, d17O -28.1%o, and d180 -53.9%o that corresponds to the 99.757 % level of light water isotopologue 1H216O. R. van Trigt. Laser Spectrometry for Stable Isotope Analysis of Water Biomedical and Paleoclimatological Applications. 2002. Groningen: University Library Groningen, p. 50. Thus, water with the abundance of light water isotopologue 1H216O more than 99.757% is not found in nature.
Complete depletion of natural water of deuterium-comprising isotopologues (1H2H16O, 1H2H17O, 1H2H18O, 1H216O, 1H217O and 2H218O) provides water enriched by light water isotopologue 1H216O to the level never more than 99.76%, since total level of these deuterium-comprising isotopologues in water is below 0.031%. Thus, water with content of light water isotopologue1H216O more than 99.76% can be prepared in industrial scale by methods providing depletion of natural water of heavy isotopologues 1H217O, 1H218O, 1H2H16O, 1H2H17O, 1H2H18O, 1H216O, 1H217O and 2H218O .
Pharmaceutical water is prepared from natural water by well-known from the art procedures that do not change isotopic content of the starting
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water. Accordingly, pharmaceutical water is the heterogeneous isotopologue composition comprising from about 99.731 to 99.757 % of light water isotopologue 1H2160 and from about 0.243 to 0.269% of residual amounts of heavy isotopologues 1H217O, 1H218O, 1H2H16O, 1H2H17O, 1H2H18O, 1H216O, 1H217O and 2H218O. In order to produce pharmaceutical water with level of light water isotopologue 'H2160 high than 99.760%, it is necessary to deplete natural water of heavy isotopologues 1H217O, 1H218O, 1H2H16O, 1H2H17O, 1H2H18O, 1H216O, 1H217O and 2H218O.
Thus, pharmaceutical water with content of light water isotopologue 'H2160 more than 99.757 % is unknown from the art and can be prepared in industrial scale by methods providing a step of depletion of natural water of heavy isotopologues 1H217O, 1H218O, 1H2H16O, 1H2H17O, 1H2H18O, 1H216O, 1H217O and 2H218O.
It is well-documented that light and heavy isotopologues of water have distinct properties and affect distinctly properties of substances in solutions, for example, the rate of biochemical reactions; the enthalpy of association of several binding systems, including protein-carbohydrate, small molecule-small molecule, protein-peptide, and protein-nucleic acid; the thermodynamics (free-energy, enthalpy, entropy and heat-capacity changes) of a ligand binding; the enthalpy of protein unfolding; the thermodynamic stability and formation of functional structures of nucleic acids. Chervenak et al. JACS, 1994, 116 (23): 10533-10539. Makhatadze et al.. Nature Struct. Biol.. 1995. 2 (lOV 852-855. Connelly et al. PNAS. 1994. 91: 1964-1968. Cupane et al.. Nucleic Acids Res. 1980. 8 (18V 4283-4303. So, it is well-documented that heavy and light isotopologues of water affect distinctly on basic properties of substances that typically are used as drugs (proteins, nucleic acids, and small molecules). Accordingly, the isotopologue heterogeneity of pharmaceutical water is undesirable and can affect a drug-
4'

dose response. Thus, there is the need in monoisotopologous pharmaceutical water in order to produce drug formulations with more advantageous properties.
It is an object of the present invention to provide pharmaceutical water comprising from about 99.760 to about 99.999% of light isotopologue 'H2160 and up to 100% of residual isotopologues 1H217O, 1H218O, 1H2H16O, 1H2H17O, 1H2H18O, 1H216O, 1H217O and 2H218O.
It is an object of the present invention to provide method of producing the pharmaceutical water comprising a step of depleting raw water of heavy isotopologues 1H217O, 1H218O, 1H2H16O, 1H2H17O, 1H2H18O, 1H216O, 1H217O and 2H218O.
It is an object of the present invention to provide therapeutic compositions comprising an effective amount of a biologically active agent and the pharmaceutical water, which water comprises from about 99.760 to about 99.999% of light isotopologue 1H2160 and up to 100% of residual isotopologues 1H217O, 1H218O, 1H2H16O, 1H2H17O, 1H2H18O, 1H216O, 1H217O and 2H218O.
It is an object of the present invention to provide method of treating a mammal in need thereof, which method comprises a step of administering to said mammal the therapeutic composition comprising an effective amount of a biologically active agent and the pharmaceutical water, which water comprises from about 99.760 to about 99.999% of light isotopologue 1H2,60 and up to 100% of residual isotopologues 1H217O, 1H218O, 1H2H16O, 1H2H17O, 1H2H18O, 1H216O, 1H217O and 2H218O.
Brief Description of the Drawings

FIG.l is a schematic side view of an apparatus for the manufacturing the water comprising from about 99.760 to about 99.999% of light isotopologue 1H216O and up to 100% of residual isotopologues 1H217O, 1H218O, 1H2H16O, 1H2H17O, 1H2H18O, 1H216O, 1H217O and 2H218O.
Disclosure of Invention
The present invention provides a pharmaceutical water, which comprises from 99.760 to 99.999% of light isotopologue 1H2160 and up to 100% of residual isotopologues 1H217O, 1H218O, 1H2H16O, 1H2H17O, 1H2H18O, 1H216O, 1H217O and 2H218O.
As used herein, the term "pharmaceutical water" refers to water used in pharmaceutical industry for the production of bulk drugs or manufacturing finished products (e.g. unit dosage form of drugs). Preferred pharmaceutical water of the invention is purified water (PW) and water for injection (WFI). A generally recognized compendium describing the PW and WFI grade pharmaceutical water is United States Pharmacopeia's monograph (current edition USP 23).
As used herein, the term "isotopologue" is in accordance with IUPAC Compendium of Chemical Terminology 2nd Edition (1997) and refers to a molecular entity that differs only in isotopic composition (number of isotopic substitutions), e.g. lH216O, 1H2H16O, and lH218O.
Herein and after, term "light pharmaceutical water" refers to water comprising from about 99.760 to about 99.999% of light isotopologue 'H2160 and up to 100% of residual isotopologues1H217O, 1H218O, 1H2H16O, 1H2H17O, 1H2H18O, 1H216O, 1H217O and 2H218O. Relative amounts of particular heavy isotopologues could vary depending upon the procedure of the preparing the water of the invention, but the sum of residual heavy
6

isotopologues formed by heavy isotopes should not exceed 0.001 to 0.240%. Accordingly, the residual amounts of heavy isotopes in the water of the invention could vary from 0.01 ppm to 155 ppm for 2H, 1 to 360 ppm for 17O, and 1 to 2000 ppm for 18O, but the sum of heavy isotopologues formed by these residual heavy isotopes should not exceed 0.001 to 0.240%.
Further, the present invention provides a method of producing the pharmaceutical water of the invention comprising a step of depleting raw water of heavy isotopologues 1H217O, 1H218O, 1H2H16O, 1H2H17O, 1H2H18O, 1H216O, 1H217O and 2H218O.
The depleting raw water of heavy isotopologues 1H217O, 1H218O, 1H2H16O, 1H2H17O, 1H2H18O, 1H216O, 1H217O and 2H218O can be made by methods known to those skilled in the art. Preferred method for the depleting the raw water is a highly-effective distillation. The product of such depleting is light water comprising from about 99.760% to about 99.999% of light isotopologue 'H^O and up to 100% of residual isotopologues 1H217O, 1H218O, 1H2H16O, 1H2H17O, 1H2H18O, 1H216O, 1H217O and 2H218O. The light pharmaceutical water is prepared from such light water by the methods well-known to those skilled in the art, which methods comprise steps of treating the light water such as pre-treatment, (e.g. primary filtration, coagulation and flocculation, desalination, and softening), disinfection, reverse osmosis or deionization, distillation or ultra-filtration, and chemical and microbial testing of a water sample. In accordance with the USP monograph (USP 23), purified water (PW) is obtained by distillation, ion-exchange treatment, reverse osmosis, or other suitable process and water for injection (WFI) is obtained by distillation or reverse osmosis. In practicing the invention, the sample of light
7

pharmaceutical water should meet requirements of a national pharmacopeia's standards, for example, the US Parmacopeia's standards.
Further, the present invention provides a therapeutic composition comprising an effective amount of a biologically active agent and the pharmaceutical water, which water comprises from about 99.760 to about 99.999% of light isotopologue 1H2l60 and up to 100% of residual isotopologues 1H217O, 1H218O, 1H2H16O, 1H2H17O, 1H2H18O, 1H216O, 1H217O and 2H218O.
Further, the present invention provides a method of administering a biologically active agent to a mammal in need thereof, which method comprises a step of administering to said mammal the therapeutic composition comprising an effective amount of a biologically active agent and the pharmaceutical water, which water comprises from 99.760 to 99.999% of light isotopologue 1H2l60 and up to 100% of residual isotopologues 1H217O, 1H218O, 1H2H16O, 1H2H17O, 1H2H18O, 1H216O, 1H217O and 2H218O.
In the composition of the invention, the biologically active agent is selected from the group consisting of drugs, physiologically active peptides, physiologically active proteins, and nucleic acids.
Preferably, the drug is selected from the group consisting of analgesic agents, anesthetic agents, antiacne agents, anti-aging agents, antiallergic agents, antianemic agents, antianginal agents, antianxiety agents, antiarrythmic agents, antiasthmatic agents, antibacterial agents, anticancer agents, anticholinergic agents, anticoagulant agents, anticonvulsant agents, antidepressant agents, antidiabetic agents, antidiarrheal agents, antidiuretic agents, antidotes, antidyskinetic agents, antidysmenorrheal agents, antiemetic agents, antifibrinolytic agents, antifibrotic agents, antifungal agents, antiglaucoma agents, antihemorrhagic agents, antihistaminic agents,
8

antihypercalcemic agents, antyhyperglycemic agents, antihyperlipidemic agents, antihypertensive agents, antihyperthyroid agents, antihyperuricemic agents, antihypocalcemic agents, antihypoglycemic agents, antihypotensive agents, anti-inflammatory agents, anti-Kawasaki disease agents, antimalarial agents, antimethemoglobinemic agents, antimicrobial- agents, antimigraine agents, antimyastenic agents, antineoplastic agents, antineuralgic agents, antineutropenic agents, antipanic agents, antipolyneuropathy agents, antiprotozoal agents, antipsoriatic agents, antipsychotic agents, antipyretic agents, antirheumatic agents, antiseborrheic agents, antispasmodic agents, antithrombotic agents, antitremor agents, antiulcer agents, antivertiligo agents, antiviral agents, anti-wrinkling agents, appetite stimulants, appetite suppressants, asthma prophylactic agents, bone resorption inhibitors, bronchodilators, contraceptive agents, corticosteroids, depigmentation agents, disinfecting agents, diuretic agents, components of dialysis solution, eastrogens, hair growth promoting agents, hair growth inhibitor agents, hemapoietic stimulants, hepatitis treatment agents, histamine H2-receptor antagonists, hormones, humectants, insulin resistance treatment agents, interferon resistance treatment agents, immunosuppressants, impotence therapy agents, keratolytic agents, miotic agents, mucolytic agents, mydriatic agents, myocardial infarction therapy or prophylactic agents, neuromuscular blocking agents, nutritional supplements, vitamins, osteoporosis prophylactic or therapy agents, sedative agents, skeletal muscle relaxant, skin emollients and skin moisturizers, skin lightening agents, sympathomimetic agent, thrombolitic agents, vaccines, vasodilators, wound healing promoters, counterirritants, vitamins, nutrients, amino acids and their derivatives, minerals, herbal extracts, retinoids, bioflavonoids, and antioxidants.
9,

Nonexclusive examples of analgesic agent include acetaminophen, hydrocodone bitartrate, codeine, caffeine, acetylsalicylic acid, diclofenac, or mixture thereof.
Nonexclusive examples of anesthetic agent include lidocaine, tetracaine, and epinephrine.
Nonexclusive examples of antiacne agent include erythromycine, tetracycline, benzoyl peroxide, nicotinamide, resorcinol, doxycicline, and salycilic acid.
Nonexclusive examples of antianemic agent include cyanocobalamine, epoietin, ferrous fumarate, ferrous sulfate, ferrous citrate, and iron dextran.
Nonexclusive examples of antianginal agent include atenolol, isosorbide mononitrate, nitroglycerine, propranolol, timolol, metoprolol, and verapamil.
Nonexclusive examples of antianxiety agent include alprazolam, bromazepam, lorazepam, and diazepam.
Nonexclusive examples of antiarrythmic agent include acebutolol, atenolol, atropine, and metoprolol.
Nonexclusive examples of antiasthmatic agent include dexmethasone, and loratadine.
Nonexclusive examples of antibacterial agent include aminosalycilic acid, isoniazide, erythromycine, gentamicin, ciprofloxacin, amoxicillin, cephaxelin, and streptomycin.
Nonexclusive examples of anticancer agent include daunorubicin.
Nonexclusive examples of anticholinergic agent include atropine.
Nonexclusive examples of anticoagulant agent include heparin, warfarin, and dicumarol.
Nonexclusive examples of anticonvulsant agent include clonazepam, diazepam, and valproic acid.
10

Nonexclusive examples of antidepressant agent include amitriptyline, and fluoxetin.
Nonexclusive examples of antidiabetic agent include insulin, metformin, succinic acid, and sulfonylureas like as glyburide.
Nonexclusive examples of antidiarrheal agent include codeine, and bismuth subsalycilate.
Nonexclusive examples of antidiuretic agent include vasopressin.
Nonexclusive examples of antidote include glucagon to calcium channel blocking agents, and penicillamine to heavy metals.
Nonexclusive examples of antidyskinetic agent include levodopa.
Nonexclusive examples of antidysmenorrheal agent include diclofenac.
Nonexclusive examples of antiemetic agent include chlorpromazine.
Nonexclusive examples of antifibrinolytic agent include aminocaproic acid.
Nonexclusive examples of antifibrotic agent include potassium aminobenzoate.
Nonexclusive examples of antifungal agent include ketoconazol.
Nonexclusive examples of antiglaucoma agent include carbachol, and pilocarpine.
Nonexclusive examples of antihemorrhagic agent include factor IX, and aminocaproic acid.
Nonexclusive examples of antihistaminic agent include ranitidine hydrochloride, and loratadine.
Nonexclusive examples of antihypercalcemic agent include calcitonin, etidronate and other biphosphonates.
Nonexclusive examples of antyhyperglycemic agent include metformin.
11

Nonexclusive examples of antihyperlipidemic agent include clofibrate, and fluvastatin.
Nonexclusive examples of antihypertensive agent include atenolol, captopril, lisinopril, and verapamil.
Nonexclusive examples of antihyperthyroid agent include potassium iodide.
Nonexclusive examples of antihyperuricemic agent include allopurinol.
Nonexclusive examples of antihypocalcemic agent include calcium acetate.
Nonexclusive examples of antihypoglycemic agent include glucagon.
Nonexclusive examples of antihypotensive agent include dihydroergotamine.
Nonexclusive examples of anti-inflammatory agent include acetylsalycilic acid, choline salycilate, ibuprofen, diclofenac, indomethacin, and dexamethasone.
Nonexclusive examples of anti-Kawasaki disease agent include immune globulin.
Nonexclusive examples of antimalarial agent include quanidine.
Nonexclusive examples of antimethemoglobinemic agent include methylene blue.
Nonexclusive examples of antimyastenic agent include neostygmine.
Nonexclusive examples of antineoplastic agent include asparaginase, carboplatin, daunorubicin, interferon, tamoxifen, and fluorouracil.
Nonexclusive examples of antineuralgic agent include carbamazepine.
Nonexclusive examples of antipanic agent include clonazepam.
Nonexclusive examples of antipblyneuropathy agent include immune globulin.
12

Nonexclusive examples of antiprotozoal agent include chloroquine, and furazolidone.
Nonexclusive examples of antipsoriatic agent include methotrexate.
Nonexclusive examples of antipsychotic agent include carbamazepine.
Nonexclusive examples of antipyretic agent include acetaminophen.
Nonexclusive examples of antirheumatic agent include methotrexate.
Nonexclusive examples of antiseborrheic agent include pyrithione, salycilic acid.
Nonexclusive examples of antispasmodic agent include glucagon.
Nonexclusive examples of antithrombotic agent include acetylsalycilic acid.
Nonexclusive examples of antitremor agent include diazepam.
Nonexclusive examples of antiulcer agent include omeprazole.
Nonexclusive examples of antivertiligo agent include diphenidol.
Nonexclusive examples of antiviral agent include acyclovir, and ribavirin.
Nonexclusive examples of appetite stimulant include dronabinol.
Nonexclusive examples of appetite suppressant include phentermine.
Nonexclusive examples of asthma prophylactic agent include theophylline.
Nonexclusive examples of bone resorption inhibitor include calcitonin.
Nonexclusive examples of bronchodilator include theophylline, and albuterol.
Nonexclusive examples of contraceptive agent include levonorgestrel.
Nonexclusive examples of corticosteroid include dexamethasone.
Nonexclusive examples of diuretic agent include furosemide, and hydrochlorothiazide.
Nonexclusive examples of eastrogen include estradiol.
,13

Nonexclusive examples of hemapoietic stimulant include epoietin.
Nonexclusive examples of hepatitis treatment agent include interferon alpha.
Nonexclusive examples of histamine H2-receptor antagonist include cimetidine.
Nonexclusive examples of hormones include melatonin, thyroid hormones, thyroxine, triiodothyronine, adrenaline, noradrenaline, glucocorticoids (e.g. Cortisol), mineralocorticoids (e.g. aldosteron), estrogens (e.g. estradiol), progesterone, androgens (e.g. testosteron), calcitriol, and calciferol.
Nonexclusive examples of insulin resistance treatment agents or interferon resistance treatment agents include succinic acid or salts thereof.
Nonexclusive examples of immunosuppressant include cyclosporine.
Nonexclusive examples of impotence therapy agent include papaverine.
Nonexclusive examples of keratolytic agent include benzoyl peroxide.
Nonexclusive examples of miotic agent include carbachol.
Nonexclusive examples of mucolytic agent include acetylcysteine.
Nonexclusive examples of mydriatic agent include atropine.
Nonexclusive examples of myocardial infarction therapy or prophylactic agent include acetylsalycilic acid.
Nonexclusive examples of neuromuscular blocking agent include succinylcholine.
Nonexclusive examples of nutritional supplement include calcium lactate, copper gluconate, ferrous fumarate, magnesium chloride, selenous acid, ascorbic acid, beta-carotene, biotin, calcitriol, calcium pantothenate, cyanocobalamine, ergocalciferol, folic acid, niacin, niacinamide, pantothenic acid, pyridoxine, riboflavin, sodium ascorbate, lipoic acid, inositol, and thiamine.
14

Nonexclusive examples of nutrients include glucose.
Nonexclusive examples of minerals include calcium, chromium, cobalt, copper, fluoride, germanium, iodine, iron, lithium, magnesium, manganese, molybdenum, phosphorus, potassium, selenium, silicon, sodium, sulfur, vanadium, and zinc.
Nonexclusive examples of vitamins include thiamin, riboflavin, niacin, pantothenates, pyridoxine, folic acid, cobalamin, biotin, choline, inositol, ascorbic acid, lipoic acid, and carnitine.
Nonexclusive examples of osteoporosis prophylactic or therapy agent include estrogens.
Nonexclusive examples of sedative agent include diazepam.
Nonexclusive examples of skeletal muscle relaxant include phenytoin.
Nonexclusive examples of thrombolitic agent include urokinase.
Nonexclusive examples of vasodilator include enalapril.
The drug of the invention is generally used individually at levels from about 0.0005% to about 50.0%, preferably from about 0.005% to about 5.0%o by weight of the composition.
Preferably, the physiologically active peptide or protein is selected from the group consisting of cytokines, peptide hormones, growth factors, factors acting on the cardiovascular system, factors acting on the central and peripheral nervous systems, factors acting on humoral electrolytes, hematopoietic factors, factors acting on bone and skeleton, factors acting on the gastrointestinal system, factors acting on the immune system, factors acting on the genital organs, and enzymes.
Nonexclusive examples of cytokines include interferons (e.g. interferon-alpha, -beta, and -gamma) and interleukins (e.g. interleukin 2 through 12).
15
Nonexclusive examples of protein or peptide hormones include insulin, insulin-like growth factor-1, growth hormone, luteinizing hormone-releasing hormone (LH-RH), adrenocorticotropic hormone (ACTH), amylin, oxytocin, activin, amylin, angiotensin, atrial natriuretic peptides (ANP), calcitonin, cholecystokinin (CCK), ciliary neurotrophic factor (CNTF), corticotropin-releasing hormone (CRH or CRF), erythropoietin, follicle-stimulating hormone (FSH), gastrin, gastrin inhibitory peptide (GIP), gastrin-releasing peptide, ghrelin, glucogon, gonadotropin-releasing factor (GnRF or GNRH), growth hormone releasing hormone (GRF, GRH), human chorionic gonadotropin (hCH), inhibin A, inhibin B, leptin, lipotropin (LPH), luteinizing hormone (LH), motilin, neuropeptide Y, oxytocin, pancreatic polypeptide, parathyroid hormone (PTH), placental lactogen, prolactin (PRL), prolactin-release inhibiting factor (PIF), prolactin-releasing factor (PRP), PYY3-36, secretin, somatostatin (SIF, growth hormone-release inhibiting factor, GIF), thrombopoietin, thyrotropin (thyroid-stimulating hormone, TSH), thyrotropin-releasing factor (TRH or TRF), vasoactive intestinal peptide (VIP), vasopressin (antidiuretic hormone, ADH) and combinations thereof.
Nonexclusive examples of growth factors include nerve growth factors (NGF, NGF-2/NT-3), epidermal growth factor (EGF), fibroblast growth factor (FGF), insulin-like growth factor (IGF), transforming growth factor (TGF), platelet-derived cell growth factor (PDGF), keratinocyte growth factor (TGF), and hepatocyte growth factor (HGF).
Nonexclusive examples of factors acting on the cardiovascular system include which control blood pressure, arteriosclerosis, etc., such as endothelins, endothelin inhibitors, endothelin antagonists, vasoppressin, renin, angiotensin I, angiotensin II, angiotensin III, angiotensin I inhibitor,
16

angiotensin II receptor antagonist, atrial naturiuretic peptide (ANP), and antiarrythmic peptide.
Nonexclusive examples of factors acting on the central and peripheral nervous systems include opioid peptides (e.g. enkepharins, endorphins, kyotorphins), neurotrophic factor (NTF), calcitonin gene-related peptide (CGRP), thyroid hormone releasing hormone (TRH), glial-derived neurotrophic factor (GDNF), brain-derived neurotrophic factor (BDNF), and neurotrophines (e.g. NT3, NT4).
Nonexclusive examples of factors acting on humoral electrolytes include calcitonin.
Nonexclusive examples of hematopoietic factors include erythropoietin, granulocyte colony stimulating factor (G-CSF), granulocyte-macrophage stimulating factor (GM-CSF) and macrophage colony stimulating factor (M-CSF), and thrombopoietin.
Nonexclusive examples of factors acting on the gastrointestinal system include secretin and gastrin.
Nonexclusive examples of factors acting on the immune system include interferons (e.g. interferon-alpha, and -gamma), monoclonal antibody, and naturally occurring, chemically synthesized or recombinant peptides or proteins which may act as antigens. These factors are administered, either independently, as coupled to haptens, or together with an adjuvant, in the formulations according to the present invention.
Nonexclusive examples of factors acting on bone and skeleton include parathyroid hormone and calcitonin.
Nonexclusive examples of factors acting on the genital organs include luteinizing hormone-releasing hormone (LH-RH) and luteinizing hormone.
Nonexclusive examples of enzymes include superoxide dismutase (SOD), urokinase, asparaginase, and kallikreins.
17

These peptides or proteins may further include glycosylated peptides or proteins, and chemically modified peptides or proteins. Nonexclusive examples of chemically modified peptides or proteins include peptides or proteins linked by a covalent chemical bond to synthetic polymers such as polyethylene glycol, natural polymers such as chondroitin, polysaccharides, etc. and those chemically modified with non-peptide substances. The non-peptide substances mentioned above may be ligands for receptors or antigens for antibodies.
Furthermore, the peptide or protein may be a plurality of peptides joined together by chemical means or by genetic engineering technology.
Nonexclusive examples of nucleic acids include plasmid DNA, RNA and oligonucleotides.
Typically, the peptide, protein or nucleic acid of the invention is presented in the composition of the invention in amounts close to its normal dosage and daily regimen ranges as detailed in medical literature for injective dosage forms. Preferably, the peptide or protein of the invention is generally used individually at levels from about 0.00001% to about 5.0%, preferably from about 0.0001% to about 1% by weight of the composition.
Preferably, the amount of the pharmaceutical water in the composition of the invention is from about 1.0 to 99.9%) based upon the total weight of the composition. More preferably, from about 50.0 to 99.9%) based upon the total weight of the composition.
The composition of the invention is provided in the pH range which does not remarkably affect the activity of the physiologically active peptide or protein and is physiologically acceptable. The preferred range is about pH 2 to pH 10. The more preferred range is about 3 to pH 9, and the most desirable range is about pH 3.5 to pH 8. Preferably, buffer of the invention
18

include, but are not limited to, glycine, citrate, succinate, fumarate, malate, or phosphate buffer.
The compositions of the invention are prepared by known procedures
using well-known ingredients. In making the compositions, the biologically
active agent will usually be mixed with the light water and diluted by
appropriate diluent or carrier. Additively, the composition of the invention
can comprise preservatives, flavors, colorants, and etc. Additively, the
composition of the present invention may be further supplemented with an
absorption promoter which assists in the absorption of the
pharmacologically active substance. The absorption promoter may be any
promoter that is pharmaceutically acceptable. Thus, there can be sodium
salicylate and salicylic acid derivatives (acetyl salicylate, choline salicylate,
salicylamide, etc.), amino acids and salts thereof (e.g. monoaminocarboxlic
acids such as glycine, alanine, phenylalanine, proline, hydroxyproline, etc.,
hydroxyamino acids such as serine etc., acidic amino acids such as aspartic
acid, glutamic acid, etc. and basic amino acids such as lysine etc., inclusive
of their alkali metal or alkaline earth metal salts), N-acetylamino acids (N-
acetylalanine, N-acetylphenylalanine, N-acetylserine, N-acetylglycine, N-
acetyllysine, N-acetylglutamic acid, N-acetylproline, N-
acetylhydroxyproline, etc.) and their salts (alkali metal salts and alkaline
earth metal salts), substances which are generally used as emulsifiers (e.g.
sodium oleyl phosphate, sodium lauryl phosphate, sodium lauryl sulfate,
sodium myristyl sulfate, polyoxyethylene alkyl ethers, polyoxyethylene
alkyl esters, etc.), caproic acid, lactic acid, malic acid and citric acid and
alkali metal salts thereof, pyrrolidonecarboxylic acids,
alkylpyrrolidonecarboxylic acid esters, N-alkylpyrrolidones, proline acyl
esters, and etc. Such optional ingredients generally are used individually at
19

levels from about 0.0005% to about 10.0%, preferably from about 0.005% to about 1.0% by weight of the composition.
The therapeutic composition can be formulated in a variety of unit dosage form. Such forms include, but are not limited to, gel tablets, sprays, syrups, suppositories, drops, and solutions.
In practicing the method of the invention, the therapeutic composition in a unit dosage fonn can be administered by a variety of routes. Such routes include, but are not limited to, oral, parenteral, transdermal, transmucosal, intradermal, intranasal, rectal, or topical.
Oral dosage form (e.g. syrup, gel tablet) is ingested and this method can be reapplied from 1 to about 5, preferably from 1 to 3 times per day.
Transmucosal dosage form (e.g. sublingual spray, gel tablet, or solution) is applied on sublingual mucosa of the mammal for period at least 10 second and this method can be reapplied from 1 to about 5, preferably from 1 to 3 times per day.
Parenteral dosage form (e.g. solution for injections) is injected to the mammal (e.g subcutaneously or intramuscularly) and this method can be reapplied.
Nasal dosage form (e.g. nasal spray or drops) is applied on nasal mucosa of the mammal and this method can be reapplied from 1 to about 5, preferably from 1 to 3 times per day.
Topical dosage form (e.g. gel) is applied on skin of the mammal, and is preferably left on the skin for a period of at least about 15 minutes, more preferably at least about 30 minutes, even more preferably at least about 1 hour, most preferably for at least several hours, e.g., up to about 12 hours. This method can be reapplied from 1 to about 5, preferably from 1 to 3 times per day.
20

The following examples are presented to demonstrate the invention. The examples are illustrative only and are not intended to limit the scope of the invention in any way.
Example 1
This example demonstrates the method for producing pharmaceutical water of the invention.
Raw light water comprising 99.99% of light isotopologue 'H2160 and up to 100% of residual isotopologues 1H217O, 1H218O, 1H2H16O, 1H2H17O, 1H2H18O, 1H216O, 1H217O and 2H218O is prepared by highly-effective distillation of natural raw water comprising 99.73% of light isotopologue 'H-,,60 with using the apparatus of FIG.l under temperature 60°C and pressure 0.2 bars. The process of the distillation comprises evaporating natural water comprising 99.73% (C,) of light isotopologue 'H^O in boiling means 1 to produce water vapor; supplying the water vapor to the bottom 2 of distillation column 3; carrying out vapor-liquid contact between a descending liquid and an ascending vapor mainly on the surface of the contact device 4 (e.g. structured or random packing) within the distillation column, at which time the liquid and the vapor flow in mutually opposite directions over the surface of the contact device along a main flow direction which is along a direction of the column axis; condensing water vapor with concentration of light isotopologue 1H216O 99.99% (C2) on condenser 5 installed on upper bound of the distillation column 3; and collecting a part of condensate as condensed raw light water comprising 99.99%) of light isotopologue 1H216O (C2 > C1) appropriate for producing light pharmaceutical water. Then, the raw light water is treated consequently by procedure of reverse osmosis. Resulted WFI grade pharmaceutical water
21

comprising 99.99% of light isotopologue 1H2I6O is tested on chemical and microbial contaminants as prescribed by national pharmacopeia's standards.
Example 2
This example shows a representative formulation comprising insulin.

Content
Water for injections (99.99% of light isotopologue 1H2160) 1ml
Human recombinant insulin 3.5 mg (100 IU)
Sodium chloride 5mg
Polysorbate 20 0.01 mg
m-Cresol 2.7 mg
The method for preparing the composition described in Example 2 was as follows: the human recombinant insulin, light water for injections and other components were mixed.
Example 3
This example shows a representative formulation comprising interferon-alpha.

Content
Water for injections (99.99% of light isotopologue 1H2160) 0.5 ml
Human recombinant interferon-alpha 10 mg
Sodium chloride 5.9 mg
Sodium phosphate 3.8 mg
22

The method for preparing the composition described in Example 3 was as follows: the human recombinant interferon-alpha, light water for injections and other components were mixed.
Example 4
This example shows a representative formulation comprising interferon-beta.

Content
Water for injections (99.99% of light isotopologue 1H2 16O) 1ml
Human recombinant interferon-beta 30 mg
Albumin 15 mg
Sodium chloride 5.8 mg
Dibasic sodium phosphate 5.7 mg
Monobasic sodium phosphate 1.2 mg

The method for preparing the composition described in Example 4 was as follows: the human recombinant interferon-beta, light water for injections and other components were mixed.
Example 5
This example shows a representative formulation comprising erythropoietin.

Content
Water for injections (99.99% of light isotopologue 1H2I6O) 1ml
Human recombinant erythropoietin 10,000 IU
Albumin 2.5 mg
23

Sodium citrate 5.8 mg
Sodium chloride 5.8 mg
Citric acid 0.06 mg
The method tor preparing the composition described in Example 5 was as follows: the human recombinant erythropoietin, light water for injections and other components were mixed.
Example 6
This example shows a representative formulation comprising calcitonin.

Content
Water for injections (99.99% of light isotopologue 1H2160) 1ml
Salmon calcitonin 2200 IU
Sodium chloride 8.5 mg
The method for preparing the composition described in Example 6 was as follows: the salmon calcitonin, light water for injections and other components were mixed.
Example 7
This example shows a representative formulation comprising G-CSF.

Content
Water for injections (99.99% of light isotopologue lH216O) 1ml
Human recombinant G-CSF 300 fig
Acetate 0.59 mg
Sodium 0.035 mg
24

Tween 80 0.004%
Sorbitol 50 mg
The method for preparing me composition described in example 7 was as follows: the human recombinant G-CSF, light water for injections and other components were mixed.
Example 8
This example shows a representative formulation comprising GM-CSF.

Content
Water for injections (99.99% of light isotopologue 1H216O) 1ml
Human recombinant GM-CSF 500 mg
Sodium citrate 5.8 mg
Sodium chloride 5.8 mg
Citric acid 0.06 mg
The method for preparing the composition described in Example 8 was as follows: the human recombinant GM-CSF, light water for injections and other components were mixed.
Example 9
This example shows a representative formulation comprising GDNF.

Content
Water for injections (99.99% of light isotopologue lH2l6O) 1ml
Human recombinant GDNF 500 mg
Sodium citrate 5.8 mg
Sodium chloride 5.8 mg
25

Citric acid 0.06 mg
The method for preparing the composition described in Example 9 was as follows: the human recombinant GDNF, light water for injections and other components were mixed.
Example 10
This example shows a representative formulation comprising growth hormone.

Content
Water for injections (99.99% of light isotopologue 1H216O) 1.5 ml
Human recombinant growth hormone 5mg
Sodium citrate 5.8 mg
Sodium chloride 5.8 mg
Citric acid 0.06 mg
The method for preparing the composition described in Example 10 was as follows: the human recombinant growth hormone, light water for injections and other components were mixed.
Example 11
This example shows a representative formulation comprising IL-1 receptor antagonist.

Content
Water for injections (99.99% of light isotopologue 1H2,16O) 1ml
Human recombinant IL-1 receptor antagonist 100 mg
Sodium citrate 1.29 mg
26

Sodium chloride 5.48 mg
Polysorbate 80 0.70 mg
The method for preparing the composition described in Example 11 was as follows: the human recombinant IL-1 receptor antagonist, light water for injections and other components were mixed.
Example 12
This example shows a representative formulation comprising anti-VEGF monoclonal antibody.

Content
Water for injections (99.99% of light isotopologue 'H2160) 1ml
anti-VEGF monoclonal antibody 25 mg
Trehalose 60 mg
Sodium phosphate (monobasic) 5.8 mg
Sodium phosphate (dibasic) 1.2 mg
Sodium chloride 5.48 mg
Polysorbate 20 0.40 mg
The method tor preparing the composition described in Example 12 was as follows: anti-VEGF monoclonal antibody, light water for injections and other components were mixed.
Example 13
This example shows a representative formulation comprising influenza virus vaccine.

Content
27
Water for injections (99.99% of light isotopologue 1H216 O) 1ml
Viral antigen (hemagglutinin) 90 ug
The method for preparing the composition described in Example 13 was as follows: viral antigen (hemagglutinin), light water for injections and other components were mixed.
Example 14
This example shows a representative formulation comprising artificial tear (ophtalmological agent).

Content
Water for injections (99.99% of light isotopologue 'H2160) 1ml
Polyacrylic acid 2mg
Sorbitol 40 mg
Benzalkonium chloride 2mg
The method for preparing the composition described in Example 14 was as follows: polyacrylic acid, sorbitol, benzalkonium chloride, and light water for injections were mixed.
Example 15
This example shows a representative formulation comprising dextran 70 (blood substitute).

Content
Water for injections (99.99% of light isotopologue 1H2I6O) 1ml
Dextran 70 60 mg
Sodium chloride 9mg
28'

The method for preparing the composition described in Example 15 was as follows: dextran 70, sodium chloride, and light water for injections were mixed.
Example 16
This example shows a representative formulation comprising naloxone (antidote).

Content
Water for injections (99.99% of light isotopologue 1H216O) 1ml
Naloxone hydrochloride 0.4 mg
The method for preparing the composition described in Example 16 was as follows: naloxone hydrochloride and light water for injections were mixed.
Example 17
This example shows a representative formulation comprising sodium chloride (agent correcting electrolyte balance).

Content
Water for injections (99.99% of light isotopologue 1H216O) 1ml
Sodium chloride 9mg
The method for preparing the composition described in Example 17 was as follows: sodium chloride and light water for injections were mixed.
Example 18
This example shows a representative dermatological formulation for skin hydration.
29

Content
Purified Water (99.99% of light isotopologue 1H216O) 21 g
Glycerin 5g
Methylhydroxypropylcellulose 2.5 g
The method for preparing the composition described in Example 18 was as follows: glycerin, purified light water and methylhydroxypropylcellulose were mixed.
Example 19
This example shows a representative formulation comprising interleukin-2.

Content
Water for injections (99.99% of light isotopologue 1H2 l6O) 1.2 ml
Human recombinant interleukin-2 18xl06IU
Mannitol 50 mg
Sodium dodecylsulfate 0.18 mg
Dibasic sodium phosphate 0.89 mg
Monobasic sodium phosphate 0.17 mg
The method for preparing the composition described in Example 19 was as follows: the human recombinant interleukin-2, light water for injections and other components were mixed.
Example 20
This example demonstrates an advantageous efficacy of interferon delivery through administration of interferon composition made on light pharmaceutical water vs. pharmaceutical water.
30

Material. Human recombinant interferon-alpha (IFN) was used.
Treatment. Male C57B1 mice about 20 g weights were administered oromucosally with 170 ng/mouse IFN in form of 20 ul/mouse solution made on natural distilled water (99.73% of light isotopologue 1H216O, control) or light pharmaceutical water (99.90% of light isotopologue 1H216O) in citrate buffer under pH 5.4-5.5. Plasma IFN levels were measured at 7 min after the administration with immunoenzyme assay specific to human IFN. Data are presented in table below as plasma IFN mean ±SD (n=6) in ng/ml.

Treatment Plasma IFN, ng/ml
IFN plus pharmaceutical water (control) 3.7 ±2.0
IFN plus light pharmaceutical water 15.0 ±1.8*
*Differs significantly of control (p Example 21
This example demonstrates an advantageous efficacy of interferon delivery through administration of interferon composition made on light pharmaceutical water vs. pharmaceutical water.
Material. Human recombinant interferon-alpha (IFN) was used.
Treatment. Male C57B1 mice about 20 g weights were depilated 72 hours before the experiment. 100 ng/mouse IFN in form of 100 ml/mouse solution made on natural distilled water (99.73% of light isotopologue 1H216O, control) or light pharmaceutical water (99.90% of light isotopologue 1H216O) in succinate buffer under pH 5.1 were applied on skin depilated area of about 1 cm2. Plasma IFN levels were measured at 10 min
31

with immunoenzyme assay specific to human IFN. Data are presented in table below as plasma IFN mean ± SD (n=5) in ng/ml.

Treatment Plasma IFN, ng/ml
IFN plus pharmaceutical water (control) 0.37 ±0.09
IFN plus light pharmaceutical water 3.62 ±1.01*
*Differs significantly of control (p Example 22
This example shows a representative formulation for a sublingual spray comprising interferon alpha.

Content, weight %
Light pharmaceutical water (99.99% of light isotopologue 1H216O) 92.00
Human recombinant Interferon alpha2a 0.85
Glycerol 5
Succinic acid 1.2
Sodium hydroxide 0.95
The method for preparing the composition described in Example 22 was as follows: the above-mentioned ingredients were mixed in the conventional manner to prepare the sublingual spray comprising interferon alpha.
Example 23
This example shows a representative formulation for a sublingual spray comprising insulin.
32

Content, weight %
Light pharmaceutical water (99.99% of light isotopologue 1H216O) 92.24
Human recombinant insulin 0.81
Glycerol 5
Succinic acid 1.0
S The method for preparing the composition described in Example 23 was as follows: the above-mentioned ingredients were mixed in the conventional manner to prepare the sublingual spray comprising insulin.Example 24This example shows a representative formulation for a sublingual spray comprising erythropoietin.odium hydroxide 0.95
Content, weight %
Light pharmaceutical water (99.99% of light isotopologue 1H216O) 92.25
Human recombinant erythropoietin 0.80
Glycerol 5
Citric acid 1.0
Sodium hydroxide 0.95
The method for preparing the composition described in Example 23 was as follows: the above-mentioned ingredients were mixed in the conventional manner to prepare the sublingual spray comprising insulin.
Example 24
This example shows a representative formulation for a sublingual spray comprising erythropoietin.

The method for preparing the composition described in Example 24 was as follows: the above-mentioned ingredients were mixed in the conventional manner to prepare the sublingual spray comprising erythropoietin.

Example 25
This example shows a representative formulation for a sublingual spray comprising calcitonin.

Content, weight %
Light pharmaceutical water (99.99% of light isotopologue 1H216O ) 92.25
Calcitonin 0.80
Glycerol 5
Succinic acid 1.0
Sodium hydroxide 0.95
The method for preparing the composition described in Example 25 was as follows: the above-mentioned ingredients were mixed in the conventional manner to prepare the sublingual spray comprising calcitonin.
34

WE CLAIM:
1. A pharmaceutical water, which comprises from 99.760 to 99.999% of light isotopologue 1H216O and up to 100% of residual isotopologues 1H217O, 1H218O, 1H2H16O, 1H2H17O, 1H2H18O, 1H216O, 1H217O and 2H218O
2. A method of producing the pharmaceutical water of claim 1 comprising a step of depleting raw water of heavy isotopologues 1H217O, 1H218O, 1H2H16O, 1H2H17O, 1H2H18O, 1H216O, 1H217O and 2H218O .
3. 3. A therapeutic composition comprising an effective amount of a
biologically active agent and the pharmaceutical water, which water
comprises from 99.760 to 99.999% of light isotopologue 1H2160 and up to
100% of residual isotopologues 1H217O, 1H218O, 1H2H16O, 1H2H17O, 1H2H18O, 1H216O, 1H217O and 2H218O.
4. The composition according to claim 3, wherein the biologically active agent is selected from the group consisting of drugs, physiologically active peptides, physiologically active proteins, and nucleic acids.
5. The composition according to claim 4, wherein the drug is selected from the group consisting of analgesic agents, anesthetic agents, antiacne agents, anti-aging agents, antiallergic agents, antianemic agents, antianginal agents, antianxiety agents, antiarrythmic agents, antiasthmatic agents, antibacterial agents, anticholinergic agents, anticoagulant agents, anticonvulsant agents, antidepressant agents, antidiabetic agents, antidiarrheal agents, antidiuretic agents, antidotes, antidyskinetic agents, antidysmenorrheal agents, antiemetic agents, antifibrinolytic agents, antifibrotic agents, antifungal agents, antiglaucoma agents, antihemorrhagic agents, antihistaminic agents, antihypercalcemic agents, antyhyperglycemic agents, antihyperlipidemic agents, antihypertensive agents, antihyperthyroid agents, antihyperuricemic agents, antihypocalcemic agents, antihypoglycemic agents, antihypotensive agents, anti-inflammatory agents, anti-Kawasaki disease agents,
35

antimalarial agents, antimethemoglobinemic agents, antimicrobial agents, antimigraine agents, antimyastenic agents, antineoplastic agents, antineuralgic agents, antineutropenic agents, antipanic agents, antipolyneuropathy agents, antiprotozoal agents, antipsoriatic agents, antipsychotic agents, antipyretic agents, antirheumatic agents, antiseborrheic agents, antispasmodic agents, antithrombotic agents, antitremor agents, antiulcer agents, antivertiligo agents, antiviral agents, anti-wrinkling agents, appetite stimulants, appetite suppressants, asthma prophylactic agents, bone resorption inhibitors, bronchodilators, contraceptive agents, corticosteroids, depigmentation agents, disinfecting agents, diuretic agents, components of dialysis solution, eastrogens, hair growth promoting agents, hair growth inhibitor agents, hemapoietic stimulants, hepatitis treatment agents, histamine H2-receptor antagonists, hormones, humectants, insulin resistance treatment agents, interferon resistance treatment agents, immunosuppressants, impotence therapy agents, keratolytic agents, miotic agents, mucolytic agents, mydriatic agents, myocardial infarction therapy or prophylactic agents, neuromuscular blocking agents, nutritional supplements, vitamins, osteoporosis prophylactic or therapy agents, sedative agents, skeletal muscle relaxant, skin emollients and skin moisturizers, skin lightening agents, sympathomimetic agent, thrombolitic agents, vaccines, vasodilators, wound healing promoters, counter-irritants, vitamins, nutrients, amino acids and their derivatives, minerals, herbal extracts, retinoids, bioflavonoids, and antioxidants.
6. The composition according to claim 4, wherein the physiologically active peptide or protein is selected from the group consisting of cytokines, peptide hormones, growth factors, factors acting on the cardiovascular system, factors acting on the central and peripheral nervous systems, factors
36

acting on humoral electrolytes, hematopoietic factors, factors acting on bone and skeleton, factors acting on the gastrointestinal system, factors acting on the immune system, factors acting on the genital organs, and enzymes.
7. The composition according to claim 6, wherein the cytokine is interferon alpha.
8. The composition according to claim 6, wherein the peptide hormone is insulin.
9. The composition according to claim 6, wherein the growth factor is insulin-like growth factor.

10. The composition according to claim 6, wherein the peptide hormone is calcitonin.
11. The composition according to claim 6, wherein the peptide hormone is growth hormone.
12. The composition according to claim 6, wherein the hematopoietic factor is erythropoietin.
13. The composition according to claim 6, wherein the factor acting on the immune system is vaccine.
14. The composition according to claim 3, wherein the amount of the pharmaceutical water is from about 1.0 to 99.9% based upon the total weight of the composition.
15. The composition according to claim 14, wherein the amount of the pharmaceutical water is from about 50.0 to 99.9% based upon the total weight of the composition.
16. A method of administering a biologically active agent to a mammal in need thereof, which method comprises a step of administering to said mammal the therapeutic composition according to claim 3.
37

17. The method according to claim 16, wherein said composition is administered orally, parenterally, transdermally, transmucosally, intranasally, rectally or topically.

38
Abstract
4. This invention relates to pharmaceutical water, which comprises from 99.760 to 99.999% of light isotopologue 1H2160 and up to 100% of residual isotopologues 1H2170, 1H2180, 1H2H160, 1H2H170, 1H2H180, 1H2160, 1H2170 and 2H2180, for the production of finished product, intermediate reagent preparation, and analytical processes in pharmaceutical industry. Further, the invention relates to pharmaceutical compositions comprising a biologically active agent and said pharmaceutical water, wherein said agent is selected from the group consisting of drugs, physiologically active peptides, physiologically active proteins, and nucleic acids. Further, the invention relates to method of administering a biologically active agent to a mammal in need thereof, which method comprises a step of administering to said mammal said therapeutic composition.

Documents:

1372-MUMNP-2007-ABSTRACT(GRANTED)-(27-2-2012).pdf

1372-mumnp-2007-abstract.doc

1372-mumnp-2007-abstract.pdf

1372-MUMNP-2007-ASSIGNMENT DEED(11-3-2010).pdf

1372-MUMNP-2007-CANCELLED PAGES(11-3-2010).pdf

1372-MUMNP-2007-CANCELLED PAGES(8-11-2011).pdf

1372-MUMNP-2007-CLAIMS(AMENDED)-(13-1-2011).pdf

1372-MUMNP-2007-CLAIMS(AMENDED)-(18-11-2011).pdf

1372-MUMNP-2007-CLAIMS(GRANTED)-(27-2-2012).pdf

1372-mumnp-2007-claims.doc

1372-mumnp-2007-claims.pdf

1372-MUMNP-2007-CORRESPONDENCE(13-1-2011).pdf

1372-MUMNP-2007-CORRESPONDENCE(13-2-2008).pdf

1372-MUMNP-2007-CORRESPONDENCE(IPO)-(29-2-2012).pdf

1372-mumnp-2007-correspondence-received.pdf

1372-mumnp-2007-description (complete).pdf

1372-MUMNP-2007-DESCRIPTION(GRANTED)-(27-2-2012).pdf

1372-MUMNP-2007-DRAWING(11-3-2010).pdf

1372-MUMNP-2007-DRAWING(7-9-2007).pdf

1372-MUMNP-2007-DRAWING(GRANTED)-(27-2-2012).pdf

1372-MUMNP-2007-FORM 18(18-2-2008).pdf

1372-MUMNP-2007-FORM 2(GRANTED)-(27-2-2012).pdf

1372-MUMNP-2007-FORM 2(TITLE PAGE)-(7-9-2007).pdf

1372-MUMNP-2007-FORM 2(TITLE PAGE)-(GRANTED)-(27-2-2012).pdf

1372-MUMNP-2007-FORM 26(11-3-2010).pdf

1372-MUMNP-2007-FORM 3(11-3-2010).pdf

1372-MUMNP-2007-FORM 5(11-3-2010).pdf

1372-mumnp-2007-form-1.pdf

1372-mumnp-2007-form-2.doc

1372-mumnp-2007-form-2.pdf

1372-mumnp-2007-form-3.pdf

1372-mumnp-2007-form-5.pdf

1372-mumnp-2007-pct-search report.pdf

1372-MUMNP-2007-PETITION UNDER RULE 137(11-3-2010).pdf

1372-MUMNP-2007-REPLY TO EXAMINATION REPORT(11-3-2010).pdf

1372-MUMNP-2007-REPLY TO HEARING(18-11-2011).pdf

1372-MUMNP-2007-SPECIFICATION(AMENDED)-(11-3-2010).pdf

1372-MUMNP-2007-WO INTERNATIONAL PUBLICATION REPORT(7-9-2007).pdf

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Patent Number

251150

Indian Patent Application Number

1372/MUMNP/2007

PG Journal Number

09/2012

Publication Date

02-Mar-2012

Grant Date

27-Feb-2012

Date of Filing

07-Sep-2007

Name of Patentee

VADA CONSULTING LIMITED

Applicant Address

SUITE 401 29-30, MARGARET STREET LONDON, W1W 8SA,

Inventors:

#	Inventor's Name	Inventor's Address
1	POMYTKIN IGOR ANATOLIEVICH	UL. MALAYA GRUZINSKAYA, 29-153, MOSCOW, 123557
2	SOLOVIEV SERGEY PAVLOVICH	UL. TROFIMOVA, 1/17-55, MOSCOW, 115432

PCT International Classification Number

A61K33/00 A61K35/02

PCT International Application Number

PCT/RU2005/000105

PCT International Filing date

2005-03-11

PCT Conventions:

#	PCT Application Number	Date of Convention	Priority Country
1			NA